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tlfje Commontoealtf) of jWaaaadjusetts 









ABBOTT P. SMITH, President. 
JAMES 0. THOMPSON, Jr., Clerk. 


Ex officio, His Honor CHARLES S. ASHLEY, Mayor. 

Ex officio, Dr. PAYSON SMITH, Commissioner of Education. 

Ex officio, ALLEN P. KEITH, Superintendent of Schools. 

Term expires June 30, 1930 

JOSEPH W. BAILEY, Agent, Booth Mill. 

LEWIS E. BENTLEY r Former Superintendent, New England Cotton Yarn Com- 
CHARLES F. PRIOR, Superintendent of Schools, Fairhaven, Mass. 
CHARLES M. HOLMES, Treasurer, Holmes, Gosnold, Page & Fairhaven Mills. 
JAMES 0. THOMPSON, Jr., Agent, New Bedford Cotton Mills Corporation. 

Term expires June 30, 1931 

Hon. SAMUEL ROSS, Secretary, Mule Spinners' Union. 

ABBOTT P. SMITH, Director, Quissett, Taber, Soule, Butler, Nemasket and New 

Bedford Cotton Mills Corporation. 
FRED W. STEELE, Treasurer, Dartmouth Manufacturing Co. 
GEORGE WALKER, Overseer, Mule Spinning and Twisting, Nashawena Mills. 
ELTON S. WILDE, President, Union Street Railway Co. 

Term expires June 30, 1932 

THOMAS F. GLENNON, Agent, Quissett Mill. 

JOSEPH H. HANDFORD, Assessor, City of New Bedford. 

LILA A. NEVES, Supervisor of Americanization, New Bedford Public Schools. 

BENJAMIN S. PROUD, Treasurer and General Manager, New Bedford Rayon 

FREDERIC TABER, President, Taber Mill. 



Abbott P. Smith, President. 

William Smith, Principal. 

Maud L. Clark, Senior Bookkeeper. 

Ellen Broadmeadow, Senior Clerk and Stenographer. 

Berniece Weeks, Junior Clerk. 

Heads of Departments 

Frank Holden, Carding and Spinning. 

William Acomb, Warp Preparation and Weaving. 

Samuel Holt, Weaving and Designing. 

Lewis G. Manning, Knitting. 

Fred E. Busby, S.B v Chemistry, Dyeing and Finishing. 

Morris H. Crompton, Engineering and Mechanical Drafting. 



Fred Beardsworth, Stephen R. Moore, Designing and 'Weaving. 

William T. Walton, Mechanical Department. 

Adam Bayreuther, Machine Shop Practice. 

Thomas H. Gourley, Carding and Spinning. 

Henry H. Broadfoot, B.S., Abram Brooks, Frank L. D. Weymouth, A.B., 

Chemistry, Dyeing and Finishing. 

Charles 0. Redfield, Engineer. 

John P. Rooney, Clarence J. Smith, Steam Firemen. 

Joseph R. N. Cliff, George Wood, Sidney McMullen, Janitors. 

The principal and heads of departments constitute the faculty of the school. 
The day instructors serve both day and evening. 

Assistant Evening Instructors 

Carding and Spinning 
Herbert Higgins James Nisbet, Jr. 

Warp Preparation and Weaving 

Manuel Alves Stephen Hebden 

John W. Anderton Alfred J. Mainville 

Fred Birtwistle Joseph E. Pageotte 

John W. Bury John Ramos 

Frank Cooper Albert N. Rushworth 

Omer Dumas William Sharples 

William Fitton Rhodes Smith 

Frederick Garlington Joseph Wilkinson 
Edward Wunschel 

Warp Drawing 
Hilda M. Kenworthy Isabel C. Murphy 

Jean C. Uberti 

Mechanical Drawing 

Bertrand E. Davies James E. Foster 

Henry C. Nelson 

Electrical Engineering Steam Engineering 

William T. Bailey Charles 0. Redfield 

Machine Shop Practice 

Louis Culver Earle P. Bo wen 

Simeon B. Livesley Byron M. Pardee 



Friday, September 5, 9 a.m. Second entrance examination. 

Monday, September 8, 8.30 a.m. Beginning of first semester, day classes. 

Thursday, September 25, and Friday, September 26. Enrollment, evening stu- 
dents, 7.30 to 9 p.m. 

Monday, September 29, 7.30 p.m. Beginning of first term, evening classes. 

Monday, October 6, to Friday, October 10, inclusive. Class elections. 

Wednesday, November 26, 12 m., to Monday, December 1. Thanksgiving recess. 

Monday, December 15, to Friday, December 19, inclusive. Examinations, evening 

Friday, December 19. Close of first term, evening classes. 
Friday, December 19, to Monday, January 5. Christmas recess. 


Friday, January 2, 7.30 p.m. Enrollment, second term, evening classes. 
Monday, January 5, 7.30 p.m. Beginning of second term, evening classes. 
Tuesday, January 27, to Friday, January 30, inclusive. Mid-year examinations, 

day classes. 
Monday, February 2, 8.30 a.m. Beginning of second semester, day classes. 
Monday, March 23, to Friday, March 27, inclusive. Examinations, evening 

Friday, March 27. Close of second term, evening classes. 
Monday, March 30, to Friday, April 3, inclusive. Spring recess. 
Tuesday, June 2, to Monday, June 8, inclusive. Final examinations, senior class. 
Monday, June 8, to Friday, June 12, inclusive. Final examinations, other classes. 
Wednesday, June 10, 9 a.m. Entrance examinations. 
Friday, June 12, 8 p.m. Graduating exercises, school hall. 



The Legislature of the Commonwealth of Massachusetts, in the act under which 
the Trustees of the New Bedford Textile School were incorporated, gives as the 
purpose of the incorporation that of establishing and maintaining a textile school 
for instruction in the theory and practical art of textiles and kindred branches of 

As New Bedford is primarily a cotton manufacturing city, this school confines 
itself principally to instruction in the cotton branch of the textile industry, and 
seeks to perfect itself in this line. Its course of instruction is arranged to subserve 
the interests of two general classes of students: (1) day students, — those who give 
their whole time for two or three years to acquiring the theory as well as the 
practice of cotton manufacturing in all its details, from the raw cotton to the 
finished fabric, and also have instruction in the scientific principles which underlie 
the construction of the machinery and its operation, and the artistic principles 
which are involved in the production of desirable and ornamental fabrics; (2) 
evening students-, — those who are employed in the mills during the day and who, 
by attending the Textile School evenings, are able to learn other phases of the 
industry from that in which they are employed, or to perfect themselves in their 
special lines of work, and become more efficient workmen. The courses of instruc- 
tion for these two classes of students are given fully on other pages of this catalogue. 

The whole of the machinery in the school is absolutely modern, being constructed 
especially for the school. It is all high grade, has latest improvements, and is 
especially built to afford facilities for all kinds of experimental work, and repre- 
sents all the leading types of machines from the best builders in the United States, 
and several English builders. 

There is no mill in which there is so large a variety of machinery as in the New 
Bedford Textile School. This consequently affords the student a better oppor- 
tunity to become acquainted with various machines and methods than could be 
found in any one manufacturing establishment. 

Each instructor in the day school is a man who is thoroughly conversant with 
the work of the department under his charge by thorough training and long ex- 
perience. Each one has charge of the work in his department at night also, 
assisted by experienced assistants from the mills, many of whom are graduates of 
this school. 

The school went into operation in the fall of 1899, and the first class was gradu- 
ated in 1900. The regular courses were one year in length for the first few years, 
but were afterwards increased to three years. Special shorter courses are given, 
however, for which certificates are granted. 

For nineteen years the school was a semi-private institution, but supported by 
appropriations made each year by the State and by the city of New Bedford. It 

was managed by a Board of Trustees, two appointed by the Governor of the Com- 
monwealth, two representing the city (the mayor and the superintendent of 
schools; ex officiis), and twenty organized under the general statute by which the 
school was founded, a perpetual body, with power to fill vacancies other than the 
four created for and representing the Commonwealth and city. 

On July 1, 1918, it became a State institution by an act amending the State 
Constitution. It is still maintained with appropriations made by the State and City. 

It is managed by a Board of Trustees consisting of eighteen members, the Com- 
missioner of Education, ex officio, fifteen appointed by the Governor of the Com- 
monwealth, and two, the Mayor and the Superintendent of Schools, ex officiis, 
representing the city. Most of the trustees are men who either are or have been 
connected actively with the manufacture of cotton textiles. 

The number of individual students attending the school since its opening is 
12,191, the number graduated 3,613. Many evening students who attend regu- 
larly do not take the examinations, and therefore do not appear as graduates, 
though they may have a good record as students, especially in practice. This 
shrinking from examinations is natural, for many of them have little or no com- 
mand of English, or are not accustomed to examinations. 

A large number of those who do not appear as graduates, however, are benefited 
by the instruction given in the school, and have acquired a knowledge and skill 
that have enabled them to rise in the industry and improve their financial and 
social condition. 


The school is situated in the center of the city of New Bedford, Mass., on the 
main car line of the city, which connects with the mill districts, and is readily ac- 
cessible to mill operatives who attend the evening sessions of the school. It is near 
the residential part of the city, and is therefore conveniently situated for non- 
resident pupils who take up a temporary residence in the city. 

New Bedford is an especially suitable location for an institution of this character. 
It is the largest cotton manufacturing city of fine yarns and fancy woven fabrics 
and novelties in the country. Its spindles number 2,746,562, and looms, 57,676; 
and employees, 30,079. 

High grade combed yarns are produced in New Bedford to a greater extent than 
in any other city, while the mills are engaged in the manufacture of fine shirtings, 
muslins, lawns, sateens, lenos, checks, piques, marquisettes and other fancy 
fabrics to an extent unknown elsewhere. New Bedford's great advantage in this 
respect can be attributed principally to the fact that her mills are nearly all of 
recent construction, with the most improved and up-to-date equipment. The 
environment of these mills is in itself a benefit to the students who select the New 
Bedford Textile School as the institution in which to learn the mill business, as they 
have opportunity to observe their construction and operation, and to find employ- 
ment in them during the long summer vacations and upon finishing their course 
in the school. 

New Bedford is within short distance of Hopedale, Whitinsville, Hyde Park, 
Providence, Pawtucket, Woonsocket, Taunton and other large cotton machinery 
centers. It is one of the healthiest of the manufacturing cities in the United States. 
Picturesquely situated on the extreme south shore of Massachusetts, it enjoys one 
of the mildest winter climates in New England, and thus offers peculiar residential 
advantages for non-resident students. 


The school is housed in two separate buildings connected by a tunnel in the 
basement and by covered bridges overhead. They are constructed of red brick 
with trimmings of Indiana sandstone. They are classified as the machinery build- 
ing and the recitation building. 

The first now comprises the original building, erected in 1898-99, and the first 
two additions erected in the years 1901-02 and 1905, respectively, and the latest 
addition 1922 and 1923. This building is 164 feet in length, with an average depth 
of 112 feet. It is three stories high, with basement under most of it, and contains 
a floor space of 59,600 square feet. In it are situated the administration offices, 

the power house and all the departments comprised in a cotton yarn and cotton 
cloth mill. In addition, it has two large thoroughly equipped rooms for instruc- 
tion in, the art of knitting, both for hosiery and underwear, and a gymnasium. 

The recitation building was completed and occupied in the fall of 1911. It con- 
sists of a main building 108 by 93 feet 6 inches, three stories high, with a deep 
well-lighted basement under the whole of it, and contains 40,392 square feet of 
floor space. It also has an annex 68 feet 3 inches long by 19 feet 3 inches deep, one 
story high, with basement, and contains 2,634 square feet of floor space. This 
annex is used as an experimental laboratory and as a storeroom for chemical 

The main building, besides being equipped with recitation and lecture rooms of 
various sizes, has a thoroughly equipped chemical laboratory, dyeing and finishing 
rooms, engineering laboratories, a commodious machine shop, drafting rooms, a 
designing room especially fitted, an exhibition room, and an assembly hall that will 
seat 400 persons. 

Both structures are of the slow-burning mill construction type, approved by the 
leading fire insurance associations and mill engineers, while the general equipment 
of the plant is also illustrative of the best methods of lighting, heating, ventilating, 
humidifying and fire-protecting mills. Great attention has been paid to the plan- 
ning and arranging of these buildings for the school, to make them suitable for the 
purposes of imparting textile instruction, and in order that the machinery building 
should give an object lesson in cotton mill engineering. 

Power and light are purchased from the local electric power company, and the 
school supplies its own heat and the steam needed in its finishing plant. The fire 
protection was designed and installed by the General Fire Extinguisher Company 
of Providence, R. I., the well-known Grinnell Sprinkler being used. The American 
Moistening Company, the Bahnson Humidifier Company and the Parks-Cramer 
Company have installed complete humidifying apparatus. The whole equipment 
is approved by the Massachusetts State inspectors of public buildings. 


The regular day diploma courses of the school are as follows: — 
General Cotton Manufacturing. 
Chemistry, Dyeing and Finishing. 

Carding and Spinning. 
Circular Hosiery Knitting. 
Latch Needle Underwear Knitting. 

All the above courses are diploma courses, three years long, and are intended 
to qualify students to hold positions of responsibility in textile manufacturing and 
allied establishments. 

The advantages of these courses to qualify men to hold responsible positions in 
cotton mills, dyeing and finishing plants, commission houses, etc., are many. These 
industries, as conducted, are not adapted to give a young man a technical education. 
The opposite is the case where the primary object is to impart knowledge and to 
train in the correct method of doing things. 

It is not expected that a young man, going from this school, will at once secure 
an executive position. It is expected, on the contrary, that he will begin in a more 
humble fashion, that with the knowledge acquired in the school and the experience 
gained in the mill itself, he will be qualified to hold higher positions, and that his 
advancement will be much more rapid and his knowledge broader than one who 
has not had the school instruction and training. That such is the case is shown 
already by the positions now held by the graduates of the school. 

Many of them are occupying positions of trust and responsibility in the textile 
and allied industries as manufacturers, treasurers, agents, superintendents, assist- 
ant superintendents, designers in mills and commission houses, overseers, chemists 
and dyers, etc. Some have been called to good positions as designers directly 
from the school, and many who have attended the evening classes have so improved 
in skill and knowledge that they have advanced in position and earning power. 

That the work of the school is recognized by textile manufacturers and those 
engaged in alhed industries is attested by the fact that applications are constant 
for men of the school — more than can be supplied. 

But this school does not agree to make successful men out of lazy, careless and 
indifferent boys, nor does it care for such boys as students. But for those who 
wish to learn, who are ready to work, who are willing to bide their time, it does 
offer an opportunity that will supply them with an honorable vocation, with many 
opportunities for advancement in the world, with good remuneration. 

In case a prospective student feels that no one of the diploma courses meets his 
particular needs, he is requested to communicate with the Principal, stating his 
wishes. Whenever possible, special courses will be given in the various depart- 
ments, for which certificates will be granted, stating the subjects taken and the 
time given to them. The limitations of these special courses will be determined in 
every case by the management. 

General Cotton Manufacturing Course (I) 

First Year 

First Term 
Pickers and Cards 101 (6% hrs.). 
Weaving 111 ( 6^ hrs . ) . 
Cloth Analysis 121, 151 (3 hrs.). 
Designing 131 (l 1 /^ hrs.). 
Hand Loom 161 (iy 2 hrs.). 
Principles of Mechanics 171 (1 hr.). 
Mechanical Drawing 172 (4^ hrs.), 
Chemistry 182 (6y 2 hrs.). 
Yarn Calculations 121 {\ x /% hrs.). 

Second Term 

Cards and Drawing Frames 102 (6V2 

Weaving 112 (6V 2 hrs.). 
Warp Preparation 122 (3y 2 hrs.). 
Designing 132 (iy 2 hrs.). 
Cloth Analysis 152 (3 hrs.) . 
Hand Loom 161 (iy 2 hrs.). 
Mechanical Drawing 172 (3y 2 hrs.). 
Textile Chemistry and Dyeing 222 (6% 

hrs.) . 

Second Year 

First Term 
Roving and Spinning Frames 103 (10 

Weaving 113 (3 hrs.). 
Designing 133 (3y 2 hrs.). 
Cloth Analysis 153 (3y 2 hrs.). 
Machine Drawing 173, 175 (2 hrs.). 
Machine-shop Practice 174 (3^2 hrs.) . 
Steam Engineering 176 (1 hr.). 
Dyeing 223 (6 hrs.). 

Second Term 

Doubling, Drafting and Testing 104, 

106 (5y 2 hrs.). 
Cotton Sampling 107 (2 hrs.) . 
Weaving 114 (4% hrs.). 
Designing 134 (3 hrs.) . 
Cloth Analysis 154 (3y 2 hrs.) . 
Machine-shop Practice 174 {Z x /% hrs.). 
Machine Drawing 175 (2 hrs.) 
Steam Engineering 176 (1 hr.). 
Textile Chemistry 234 (6y 2 hrs.). 
Testing 295 (lhr.). 

Third Year 

First Term 

Combers and Mules 105 (10 hrs.). 
Weaving 115 (6y 2 hrs.). 
Designing 135 (2y 2 hrs.). 
Color 145 (2 hrs.). 
Cloth Analysis 155 (3y 2 hrs.). 
Machine-shop Practice 174 (3 hrs.) 
Elementary Electricity 177 (2 hrs.). 
Knitting 294 (3 hrs.). 

Second Term 

Carding and Spinning, Practice Work 

106 (10 hrs.). 
Weaving 116, 117 (6y 2 hrs.). 
Designing 136 (3y 2 hrs.) . 
Color 146 (2 hrs.). 
Cloth Analysis 156 (3 hrs.) . 
Mill Engineering 178 (3 hrs.) . 
Cost Finding 179 (iy 2 hrs.). 
Converting 235-260 (3 hrs.) . 

General Cotton Manufacturing Course 

The course in cotton manufacturing is designed to give the student a thorough 
fundamental knowledge of the different processes entering into the construction of 
a piece of cloth from the raw staple to the finished product. 

During the first year the student takes up the study of yarn preparation, weav- 
ing, designing and cloth analysis. The study of mechanics, mechanical drawing 
and chemistry is also pursued the first year the work in these subjects being de- 
signed especially for men who are to take up the cotton mill work. Instruction in 
yarn calculations, spooling, warping, and slashing is also offered during the first year. 

In the second and third years sufficient time is given to instruction in picking, 
carding and spinning, while the subjects of weaving, designing and analysis are 
continued. Practical work in the machine shop is entered upon the second year. 

Dyeing is begun the first year, the work being such as is of special interest to the 
student of cotton manufacturing. The student is also given instruction in steam 
engineering during the second year, while in the third year, work in electrical engi- 
neering and cotton mill construction is offered. The study of color is taken up 
during the third year. Knitting is also taken up the third year. 

The work in all subjects is so arranged that the student is taken gradually from 
the simpler to the more difficult problems. Much of the work in the last year is 
original, and the student is thrown on his own resources. 

The work in chemistry, dyeing, mechanics and shop practice is all arranged 
with special reference to the student of cotton manufacturing. 

This course is very thorough, and is always recommended to the student who is 
to make cotton cloth manufacturing his future work. 

Designing Course (II) 

First Year 

First Term 

Weaving 111 (10 hrs.). 

Cloth Analysis 121, 151 (12V 2 hrs.). 

Designing 131 (iy 2 hrs.). 

Hand Loom 161 (iy 2 hrs.). 

Principles of Mechanics 171 (1 hr.). 

Mechanical Drawing 172 (4y 2 hrs.) . 

Yarn Calculations 121 (iy 2 hrs.). 

Second Term 

Weaving 112 (9y 2 hrs.). 

Warp Preparation 122 (3^ hrs.). 

Designing 132 (iy 2 hrs.). 

Cloth Analysis 152 (13 hrs.). 

Hand Loom 161 (V/ 2 hrs.). 

Mechanical Drawing 172 (Sy 2 hrs. 

Second Year 

First Term 
Weaving 113, 114 (6y 2 hrs.). 
Designing 133 (3y 2 hrs.). 
Color 145 (2 hrs.). 
Cloth Analysis 153, 154 (11 hrs.). 
Machine Drawing 173, 175 (2 hrs.). 
Machine-shop Practice 174 (3 hrs.). 
Steam Engineering 176 (1 hr.). 
General Chemistry 182 (3y 2 hrs.). 

Second Term 
Cotton Sampling 107 (2 hrs.). 
Weaving 115 (11 hrs). 
Designing 134 (3 hrs.). 
Color 146 (2y 2 hrs.). 
Cloth Analysis 155 (3% hrs.) . 
Machine-shop Practice 174 (3 hrs.). 
Machine Drawing 175 (2 hrs.). 
Steam Engineering 176 (1 hr.). 
Textile Chemistry 222 (3V 9 hrs.). 
Testing 295 (lhf.). 


Second Term 
Weaving 116 (10 hrs.). 
Jacquard Designing 136 (8 hrs.) . 
Cloth Analysis 156 (5 hrs.) . 
Commission House Work 157 (2 hrs.). 
Finishing 235 (3 hrs.). 
Mill Engineering 178 (3 hrs.). 
Cost Finding 179 (iy 2 hrs.). 

Designing Course 

Designing is a branch of textile manufacturing of sufficient importance to call 
for a separate diploma course, extending over three school years. Since the major 
subjects in this course are confined to designing, cloth analysis and weaving, the 
work is somewhat more intensive than in the general course. 

First Term 
Weaving 116 (9% hrs.). 
Jacquard Designing 135 (8 hrs.). 
Cloth Analysis 156 (4y 2 hrs.). 
Machine-shop Practice 174 (3 hrs.). 
Elementary Electricity 177 (2 hrs.). 
Color 146 (2 hrs.). 
Textile Chemistry 222 (3y 2 hrs.) . 

The student, during the first year, takes up the study of the plain loom, the more 
simple designs and the analysis of such fabrics as contain designs similar to those 
being studied in the designing lessons. 

Instruction the first year is also offered in the preparation of warps for the loom, 
while work in the mechanical department is entered upon the first year, and ex- 
tends through all three years of the course. 

Instruction in the mechanical department is considered essential to the student 
of designing, as many of the new fabrics brought out by designers from year to year 
are based as much upon the mechanism of the loom as upon pure design. 

During the second year more advanced fabrics, such as double cloths, Bedford 
cords, piques and lenos, are studied, both in designing and analysis, while much of 
the work in the weave room consists of putting original designs into the looms and 
weaving a short length of each. 

Commencing with the first term of the second year, a practical course in color 
is offered the student, who is required to work out a series of color scales and apply 
them in coloring designs. 

In the second term of this year cotton sampling is introduced. 

The third year is largely devoted to the subject of Jacquard designing in both 
the designing and weaving departments. During this year the subject of commis- 
sion house work, as it applies to the styling and finishing of ,new fabrics, is dealt 
with, and the student is given a close insight into the requirements of this branch of 

For the student who wishes to perfect himself in the subject of cloth designing, 
as applied to the cotton trade, this course will be found very complete. 

Chemistry, Dyeing and Finishing Course (III) 

First Year 

First Term 
Principles of Mechanics 171 (1 hr.) . 
Mechanical Drawing 172 (5% hrs.). 
General Chemistry 181 (12y 2 hrs.). 
Inorganic Preparations 183 (10 hrs.). 
Designing and Cloth Analysis (3^ 

Second Term 
Mechanical Drawing 172 (Sy 2 hrs.) . 
Machine-shop Practice 174 (3 hrs.) . 
Qualitative Analysis 191, 192 (13 hrs.). 
Organic Chemistry 212 (Qy 2 hrs.). 
Textile Chemistry and Dyeing 222 

(6y 2 hrs.). 

Second Year 

First Term 
Color 145 (2 hrs.). 
Machine-Drawing 173, 175 (2 hrs.). 
Machine-shop Practice 174 (3 hrs.). 
Steam Engineering 176 (1 hr.). 
Quantitative Analysis 203 {IV-/2 hrs.). 
Organic Chemistry 213 (6^ hrs.) . 
Dyeing 223 (6y 2 hrs.). 

Second Term 
Color 146 (2 hrs.). 
Machine-shop Practice 174 (3 hrs.). 
Machine-Drawing 175 (2 hrs.). 
Steam Engineering 176 (1 hr.). 
Dyeing 224 (9 hrs.). 
Textile Chemistry 233 (3y 2 hrs.). 
Cotton Sampling 107 (2 hrs.). 
Cotton Manufacturing 230 (1% hrs.), 
Quantitative Analysis 202 (7% hrs.). 
Cotton Testing, 295 ( 1 hr . ) . 

Third Year 

First Term 
Machine Shop 174 (3 hrs.). 
Elementary Electricity 177 (2 hrs.), 
Dyeing 225 (6y 2 hrs.). 
Singeing 240 (2 hrs.). 
Scouring 241 (5 hrs.) . 
Bleaching 242 (3 hrs.). 
Mercerizing 245 (1 hr.). 
Textile Chemistry 234 (10 hrs.). 

Second Term 
Machine Drawing 175 (3 hrs.). 
Drying 250 (4 hrs.). 
Calendering 255 (4 hrs.). 
Putting up 260 (2 hrs.). 
Thesis 269 (13 hrs.). 
Textile Chemistry 234 (6y 2 hrs.), 

Chemistry, Dyeing and Finishing Course 

The object of this course is to give to the student a thorough knowledge of the 
chemistry of the textile processes involved in the manufacture of cotton cloth. 
To insure a perfect foundation, (he first two years are devoted almost entirely to 
chemical subjects and laboratory work. During this period the subjects; of general 
chemistry, inorganic and organic, are taught, the preparation and properties of 
various chemicals and dyestuffs, the properties of the various fibers, and the color- 
ing of them. 

The third year is devoted almost entirely to the practical dyeing and finishing of 
cotton goods. The best current practice is followed, but the underlying principles 
arc Ihoroughly taught in order that the student may understand the limitations 
and purpose of each process. 

The subjects of machine drawing, principles of mechanics, electricity and shop 
work are taught. These allied subjects are arranged with special reference to the 
major subjects, and are considered very important, as they give the student a first- 
hand knowledge of the construction of the various machines. 

The graduates of this course find employment with dyestuff makers and dealers, 
with manufacturers of chemicals used in dyeing, with bleacheries, dye houses and 
finishing works. 

It is desirable that students entering this course shall have successfully com- 
pleted a scientific course in high school or its equivalent. Any one, however, who 
can show by examination his ability to profit by the instruction given is admitted. 

Circular Hosiery Knitting Course (IV) 

First Year 

First Term 
Pickers and Cards 101 (6y 2 hrs.). 
Principles of Mechanics 171 (1 hr.). 
Mechanical Drawing 172 (4^2 hrs.) . 
Chemistry 182 (6V 2 hrs.). 
Knitting 271 (12y 2 hrs.). 
Yarn Calculations 121 (iy 2 hrs.). 

Second Term 
Cards and Draw Frames 102 (6V2 hrs.). 
Mechanical Drawing 172 (3^ hrs.). 
Machine-shop Practice 174 (3 hrs.). 
Textile Chemistry and Dyeing 222 

(6y 2 hrs.). 
Knitting 271 (13 hrs.). 

Second Year 

First Term 
Roving and Spinning Frames 103 (Qy 2 

hrs.) . 
Machine Drawing 173, 175 (2 hrs.). 
Machine-shop Practice 174 (Sy 2 hrs.) . 
Steam Engineering 176 (1 hr.). 
Dyeing 223 (6 hrs.). 
Knitting 272 (13y 2 hrs.). 

Second Term 
Doubling and Drafting 104 (5y> hrs.). 
Cotton Sampling 107 (2 hrs.). 
Machine-shop Practice 174 (3y> hrs.). 
Machine Drawing 175 (2 hrs.). 
Steam Engineering 176 (1 hr.). 
Textile Chemistry 234 (6y 2 hrs.). 
Knitting 273 (11 hrs.). 
Testing 295 (lhr.). 

Third Year 

First Term 
Machine-shop Practice 174 (3y 2 hrs.). 
Elementary Electricity 177 (2 hrs.). 
Dyeing 226 (5 hrs.). 
Knitting 274, 293 (19y 2 hrs.). 
Color 146 (2y 2 hrs.). 

Second Term 
Mill Engineering 17S (3 hrs.). 
Dyeing 226 (9y 2 hrs.). 
Knitting 274, 293 (17y 2 hrs.). 
Color 146 (2y 2 hrs.) . 

Circular Hosiery Knitting Course 

The course in circular hosiery knitting is adapted to the needs of those students 
desiring a thorough knowledge of the hosiery industry. 

The instruction given covers both the technical and practical parts of the busi- 
ness, including cost finding. 


A part of the time is devoted to instruction on the knitting machines. 

During the first year the student takes up the winding and preparation of cotton, 
lisle, wool, worsted and silk yarns for use on hosiery machines ; also the principle of 
circular latch-needle knitting, and the setting and adjusting of different makes of 
rib-leg and rib-top machines. 

In the second and third year, the time is given up to a study of the different 
makes of automatic hosiery machines, knitting men's half hose, ladies' hose, footing, 
children's and infants' hose, looping, welting and mending; method of handling 
and keeping account of goods through the mill; cost of manufacturing from yarn 
to the box. 

Instruction is also given in cotton yarn preparation, yarn calculations, cotton 
sampling, mechanics, steam engineering, chemistry and dyeing, the work in these 
different subjects being arranged to meet the special needs of the student. 
This course is recommended to those students who intend to become connected 
with a hosiery mill. 

Latch Needle Underwear Knitting Course (V) 

First Year 

First Term 
Pickers and Cards 101 (6y> hrs.). 
Principles of Mechanics 171 (1 hr.). 
Mechanical Drawing 172 (4% hrs.) . 
Chemistry 182 (6V 2 hrs.). 
Knitting 281 (12% hrs.). 
Yarn Calculations 121 (1% hrs.). 

Second Term 
Cards and Draw Frames 102 (6% hrs.) . 
Mechanical Drawing 172 (3y 2 hrs.). 
Machine-shop Practice 174 (3 hrs.). 
Textile Chemistry and Dyeing 222 {Q 1 /^ 

Knitting 281 (13 hrs.). 

Second Year 

First Term 

Roving and Spinning Frames 103 (6y 2 

Machine Drawing 173, 175 (2 hrs.). 
Machine-shop Practice 174 (3% hrs.). 
Steam Engineering 176 (1 hr.). 
Dyeing 223 (6 hrs.). 
Knitting 282 (13y 2 hrs.). 

Second Term 

Doubling and Drafting 104 (5% hrs.), 
Cotton Sampling 107 (2 hrs.). 
Machine-shop Practice 174 (3% hrs.). 
Machine Drawing 175 (2 hrs.). 
Steam Engineering 176 (1 hr.). 
Textile Chemistry 234 (6y 2 hrs.). 
Knitting 283 (11 hrs.). 
Testing 295 (lhr.). 

Third Year 

First Term 

Machine-shop Practice 174 (3% hrs.), 
Elementary Electricity 177 (2 hrs.). 
Dyeing 226 (5 hrs.). 
Knitting 284, 293 (19V 2 hrs.). 
Color 146 (2y 2 hrs.). 

Second Term 

Mill Engineering 178 (3 hrs.), 
Dyeing 226 (9y 2 hrs.). 
Knitting 284, 293 (17y 2 hrs.). 
Color 146 (2y 2 hrs.). 

Latch Needle Underwear Knitting Course 

The course in latch needle underwear knitting is adapted to those students in- 
tending to become connected with this branch of the textile industry. 

As in the case of the hosiery course, part of the student's time is devoted to in- 
struction work on the knitting and sewing machines. Instruction is also given in 
cotton yarn preparation, yarn calculations, mechanics, steam engineering, cotton 
sampling, chemistry and dyeing. As is the case with all other courses offered, 
instruction in these correlated subjects is arranged best to meet the needs of each 
individual course. 

Both of the knitting courses are very thorough, and give the student a good work- 
ing knowledge of the different processes and the machinery connected with the 
same. The knitting department of the New Bedford Textile School contains a 


larger variety of knitting machinery than is found in any similar school in the 
United States, and the courses offered in this department cannot fail to be of very 
great benefit to any one desiring knowledge along these lines. 

Carding and Spinning Course (VI) 

First Year 

First Term 
Picking, Carding, Roving 300 (15 hrs.). 
Mechanical Drawing 172 (3 hrs.) . 
Chemistry 182 (6y 2 hrs.). 
Knitting 301 (6y 2 hrs.). 
Yarn Calculations 121 (iy 2 hrs.). 

Second Term 
Drawing, Spinning, Doubling and 

Drafting 302 (13y 2 hrs.). 
Machine Shop 174 (3 hrs.). 
Mechanical Drawing 172 (3 hrs.). 
Chemistry and Dyeing 222 (6y 2 hrs.) . 
Knitting 301 (6y 2 hrs.). 

Second Year 

First Term 

Combers and Mule Spinning 303 (13y 2 

Knitting 301 (6y 2 hrs.). 
Steam Engineering 176 (1 hr.). 
Machine Drawing 173-175 (2 hrs.). 
Dyeing 223 (6% hrs.). 
Machine Shop 174 (3 hrs.). 

Second Term 
Spinning, Twisting and Cotton Class- 
ing 304 (12y 2 hrs.). 
Knitting 301 (6y 2 hrs.) . 
Steam Engineering 176 (1 hr.). 
Machine Drawing 175 (2 hrs.). 
Textile Chemistry 234 (6y 2 hrs.). 
Machine Shop 174 (3 hrs.). 
Testing 295 (1 hr.). 

Third Year 

First Term 
General Test Work and Roll Covering 

305 (21 hrs.). 
Knitting 301 (6 x / 2 hrs.). 
Elementary Electricity 177 (2 hrs.). 
Machine Shop 174 (3 hrs.). 

Second Term 
Yarn Testing and Comber Reneedling 

306 (19y 2 hrs.). 
Knitting 301 (6y 2 hrs.). 
Mill Engineering 178 (3 hrs.). 
Machine Drawing 175 (2 hrs.). 
Cost Finding 179 (iy 2 hrs.). 

Carding and Spinning Course 

The course in carding and spinning is designed to give the student a thorough 
knowledge of cotton yarn manufacture. 

The larger part of the students' time is devoted to instruction on the different 
machines used in the preparation of cotton yarn. 

Instruction is also given in knitting, mechanics, steam engineering, chemistry 
and dyeing. Considerable time is given to knitting, as that industry is closely re- 
lated to cotton yarn manufacture. 

This course is recommended to those students who intend to become connected 
with cotton yarn mills or to become cotton yarn salesmen. 

Secretarial Course (VII) 

First Year 

First Term 
Cotton Yarn Preparation (12 hrs.). 
Weaving (3% hrs.). 
Cloth Analysis (12y 2 hrs.). 
Yarn Calculations (V/ 2 hrs.). 
Designing (l 1 /^ hrs.). 
Hand Loom (iy 2 hrs.). 

Second Term 
Cotton Yarn Preparation (13% hrs.) . 
Weaving (3y 2 hrs.). 
Cloth Analysis (9 hrs.). 
Designing (iy> hrs.). 
Converting (3% hrs.). 
Hand Loom (iy 2 hrs.). 


Second Year 

First Term 

Cotton Yarn Preparation (9Y2 hrs.) 

Weaving (3 hrs.) . 

Designing (7 hrs.) . 

Cloth Analysis (5 hrs.). 

Color (2 hrs.) . 

Knitting (6 hrs.). 

Second Term 

Cotton Yarn Preparation (9% hrs.) , 

Weaving (4^ hrs.) . 

Designing (S 1 /^ hrs.). 

Cost Finding (l 1 ^ hrs.). 

Color (3% hrs.) . 

Knitting (5 hrs.). 

Secretarial Course 

This course is designed for young women who have had a high school education 
and wish to prepare themselves for mill office work. It is arranged to give the 
student a knowledge of all the different processes in the manufacture of yarn and 
cloth and the finishing of the same. It covers all calculations required in laying 
out draft schedules, production costs, cloth construction and designing and all 
testing and research work required in cloth manufacture and finishing. 

This is a certificate course and can be completed in two years. 

Junior Manufacturing Course (VIII) 

First Year 

First Term 
Pickers and Cards (9^2 hrs.) . 
Weaving (3^/2 hrs.) . 
Work in Design Dept. (10 hrs.). 
Mechanical Drawing (3 hrs.) . 
Arithmetic (3 hrs.). 
Machine-shop Practice (3^ hrs.) , 

Second Term 
Cards and Drawing Frames (9^2 hrs.) , 
Weaving (3^ hrs.). 
Work in Design Dept. (10 hrs.) . 
Mechanical Drawing (3 hrs.) . 
Arithmetic (3 hrs.) . 
Machine-shop Practice (3% hrs.). 

Second Year 

First Term 
Cotton Yarn Preparation (6y 2 hrs.) 
Weaving (6 x /2 hrs.) . 
Designing (l^hrs.). 
Knitting (3 hrs.). 
Chemistry (3 hrs.) . 
Mechanics and Drawing (7 hrs.). 
Hand Loom (1% hrs.). 
Cloth Analysis (3% hrs.). 

Second Term 

Cotton Yarn Preparation (6^/2 hrs. 

Weaving (6^2 hrs.) . 

Designing (1% hrs.). 

Knitting (3 hrs.). 

Chemistry (3 hrs.) . 

Mechanics and Drawing (7 hrs.). 

Hand Loom (1% hrs.). 

Cloth Analysis (S 1 ^, hrs.) . 

Junior Manufacturing Course 

This course is arranged for students of fourteen years of age or over who have- 
had a grammar school education and wish to obtain some knowledge of cotton 
manufacturing before entering the mill. 

This course is so arranged that a student taking it can obtain a fair working 
knowledge of the different processes in the making of cotton cloth from the raw 
stock to the woven or knitted fabrics. It covers Cotton Yarn Preparation, Warp 
Preparation, Weaving, Cloth Construction, Simple Designing, Mechanical Draw- 
ing, Machine-shop Practice, Calculations, Knitting and Chemistry. 

A certificate course can be completed in two years. If at the end of this time,, 
the student wishes to take the regular diploma course, he can do so by taking two 
years more, completing the regular diploma course in four years. 

This course is recommended for boys who wish to obtain a textile education but 
cannot afford to spend seven years after graduating from the grammar school. 


Mechanical Course (IX) 

First Term 
Shop Mathematics 169 (3 hrs.). 
Mechanical Drawing 172 (9V 2 hrs.) 
Machine Shop 174 (20 hrs.). 

First Year 

Second Term 
Shop Mathematics 169 (3 hrs.). 
Mechanical Drawing 172 (10 hrs.). 
Machine Shop 174 (19y 2 hrs.). 

Second Year 

First Term 
Steam Engineering 176 (1 hr.). 
Elementary Electricity 177 (2 hrs.). 
Machine Drawing and Mechanism 175, 

173 (24 or 9% hrs.). 
Machine Shop 174 (20 or 5V 2 hrs.). 

Second Term 
Steam Engineering 176 (1 hr.). 
Machine Drawing and Design 175 (26*/2 

or 6V2 hrs.). 
Machine Shop 174 (25 or 5 hrs.). 

Mechanical Course 

The mechanical course is arranged for those students who have a natural leaning 
towards mechanical things. A practical knowledge of the mechanical side of a 
textile mill may be obtained by those attending this course. 

During the first year all of the students spend the same amount of time in the 
various subjects, but during the second year, the major part of the time can either 
be spent in the machine shop or the drafting room. 

A certificate course can be completed in two years, and, if the student so desires, 
he may specialize for another year either in the drafting room or the machine shop. 

This course will fit the students to enter engineering offices, drafting rooms, 
machine shops, planning departments of various machine builders and other lines 
of employment. 

Textile Fabric Course 

This course is designed for persons interested in different kinds of textile fabrics, 
their manufacture, finishing and marketing. It should be especially instructive 
to persons employed in buying and selling finished goods. 

1. It is proposed to discuss the different kinds of cotton and their adaptability to 
different kinds of fabric. 

2. A general idea of how yarns are made and the objects of the different ma- 
chines used. The different terms used in making yarns, such as "Break", "Turns 
per Inch" etc. Testing for strength. Effect of moisture etc. 

3. Weaving. The different kinds of looms used and the cloth produced. Dif- 
ference in weaving Plain, Sateens, Twills, Shirtings, Lenos and Jacquards. 

4. Analyzing cloth to distinguish the different fibres, such as cotton, wool, 
worsted, linen, silk and rayons. 

5. Study a number of designs commonly used, analyzing a few samples of cloth, 
finding yarns used, percentage of different yarns, weight and cost. 

6. A study of different fabrics, showing how to distinguish one kind from another. 

7. Qualification of fabrics for different purposes. 

8. Methods of finishing fabrics. 

Textile Discussion Course 

This course is designed for persons employed in executive positions or for 
workers in the different departments, such as overseer, second hand, third hand, etc. 

1. A discussion of different cottons and their adaptability for different goods. 

2. Handling cotton when received at the mill. Mixing, picking, carding, draw- 
ing, combing, roving and spinning. 

101. Pickers and Cards 

Cotton yarn mill machinery. Lists of processes in cotton mills for different 
numbers of yarn. Proper sequence of processes. 


Objects of blending cotton. Methods of mixing same. Bale breakers. 

Picker rooms. Automatic feeders. Construction of different varieties of 
feeders. Their capacity and suitability for the purpose intended. 

The cotton opener, its use and object. Various styles of openers. Setting and 
adjustment of openers. Connection of feeders to openers. The various styles of 
trunks. Calculations in connection with openers. Breakers. Intermediate and 
finisher lappers. Different styles and makes of machines. Use and object of the 
lapper. Construction of aprons, beaters, bars, screens, fans, lap heads, evener and 
measuring motions, etc. The setting and adjustment of lappers. Calculations in 
connection with lappers. 

The revolving flat card. Its principal parts described, including feed, licker, 
cylinder, doffer, coiler, screens and flats. Different setting arrangements. Speeds 
of different parts. Top flat cards, roller and clearer, and other cotton cards. 
Clothing, grinding, setting and stripping cards. 

102. Cards and Drawing Frames 

Study of the card continued. 

The railway head as used either independently or combined with sections of 
cards. Single and double railway heads. Eveners, draft calculations, metallic 
and other rolls. 

Method of arranging and constructing drawing frames. The use and objects of 
the frame. Gearing, weighting, stop-motions, varieties of rolls, etc. 

103. Roving Frames, Spinning Frames and Twisters 

Slubbers. First and second intermediates. Roving or jack frames. The con- 
struction and use of the fly frame. Description and use of the different parts. 
Calculations in connection therewith. Changing and fixing frames, etc. 

The spinning frame. Its construction and use. Its principal parts, such as 
creels, rolls, rings, travelers, speeds, builder motions, etc. 

The objects of twisting. Wet and dry twisting. The direction and amount of 
twist in different ply and cord threads ; different methods used in preparing yarn 
for twisting. Size of rings and travelers for different counts of yarn. Methods of 
winding, speeds and production. 

104. Doubling and Drafting 

Figuring the number of doublings and drafts from picker to spinning frame or 

Calculations for schedules of machinery required for different counts and 
amounts. Cost and production of yarn. 

Practice work consists of carrying work through picker to spinning frames. 

105. Combers and Mules 

The sliver and ribbon lap machines. Construction of American and English 
machines. Methods of operating same. Setting and adjusting same, and calcu- 
lations in connection therewith. 

The cotton comber. The construction of the comber, its use and objects. 
Comber setting. Comber calculations. Operation and management of combers. 

The spinning mule and its uses. The special features of the mule. Descrip- 
tion of the head stock, the cam shaft, mule carriage and other parts. The con- 
struction and use of each part of the mule. Different movements in the mule and 
the timing of the same. The copping rail and the building of a cop. Faults in 
mule spinning and their correction. Mule calculations. 

106. Tests 

Original work in laying out processes for different counts of yarn, and carrying 
the same through from raw cotton to finished yarn. Tests for different processes. 
Methods of testing from bale to finished fabrics. 

107. Raw Cotton 

Raw cotton. Its varieties. The cultivation of cotton. The preparation of 
cotton for the market. Cotton ginning. Cotton as an article of commerce. The 
selection of cotton, its suitability for different purposes. 

111. Plain Looms 

The construction of the plain loom. The principal movements in weaving. 
Methods of shedding. Shedding motions. Shedding by cams. Auxiliary shafts. 
Variety of cams. Construction of cams. Timing cams and effect on 1 he cloth. 

Picking motions. Different methods of picking. Shuttles. Shuttle boxes. 
Shuttle guards. Protector motions. Reeds. Let-off motions. Take-up motions. 
Calculations in connection with take-up motions. 

Filling-stop motions. 

Temples. The various makes and their uses. 

The Draper loom. Special feaures of its construction. 

Automatic shuttle and bobbin changing looms. 

Special features of the various makes of looms including Crompton & Knowles, 
Whitin, Mason and Stafford looms. 

The management, operation and fixing of looms. Putting in warps. Faults and 
remedies in weaving and fixing. Calculations directly connected with plain looms. 

Looms adapted to weave twills and satins. 

Mechanical warp stop-motions. 

112. Fancies 

Looms adapted to weave fancy cloth with dobbies. Dobby construction, timing 
and setting for single and double index dobbies. Chain pegging for dobbies. 

Tying in and starting up warps for which the student has worked out some 
design. Timing and setting and practical work on 2 x 1 box looms. 

113. Box Looms 

Looms for the use of various colors of filling. Drop box motions. Box chain 
multipliers. Multiplier motions. Still box motion. 

114, 115. Special Loom Attachments 

Dobby looms combined with other motions for special purposes, such as looms 
adapted to weave lenos with cotton and wire doups and all modern equipment, 
checks, blankets, handkerchiefs, towels and other goods. 

Draper looms. Practical setting of the magazines, feeler and warp stop motions. 

Stafford and Automatic looms. Practical setting of the magazines, feeler and 
warp stop motions for shuttle changing and bobbin changing looms. 

Crompton & Knowles Automatic 4x1 Box looms. Practical setting of the 
magazine, multipliers and warp stop motions. 

116. Jacquards 

The principle of construction of Jacquard machines. Single and double lift 
machines. Jacquard machines for special purposes. Principles of harness tying. 
Practical work in cutting cards and weaving the student's own designs. 

117. Dobby Automatic Looms 

Dobby automatic looms adapted to weaving ginghams, crepe effects and hand- 
kerchiefs. Special features of their construction. Practical work with modern 
wire doup lenos. 

Suggestions for the management of the weave room. 

121. Yarn Calculations 

Definitions. Calculations for finding length, weight or counts of single yarns, 
whether cotton, woolen, worsted, silk, etc. Ply yarns. 

122. Spoolers, Warpers and Slashers 

Various methods of preparing cotton warps. 

The spooler, its use and construction. Production per spindle. Spindle speeds. 
Builder motions. Thread guides. Different makes of spoolers. 

The operation and setting of the spooler. 

Warpers. The object of the warper. Its construction and operations. Speeds, 
settings, etc. Warpers with and without cone drive. Warper slow motions. 
Faults in warping and their correction. 


The slasher. Its use. Construction of the different parts of the slasher. 

Sizing or dressing yarns. Materials used. Methods of mixing same. Suitable 
materials for various purposes. 

Preparing the warp for the loom. The construction of reeds and harnesses. 

Variations from the above system for special purposes, such as used in gingham 
and other mills. 

131. Designing 

Definitions of the words and terms used in designing and analysis. Character- 
istics of the various classes of fabrics. Design paper and its application to design- 
ing and analysis. Cloth structure, with a study of the various sources from which 
the patterns of fabrics are obtained. Twills, Wave effects. Diamonds, Sateens. 
Granites. Checkerboards. Rearranged twills. Figured twills. 

132. Designing 

Designing for single fabrics continued, such as honeycombs. Mock and imita- 
tion lenos. Entwining twills. Spots weaves arranged in various orders. Cord 
weaves. Imitation welts. Elongated twills. Check effects. Corkscrew weaves. 
Four change system of designing. Damask weaves. 

133. Designing 

Designing for more complicated fabrics, such as figure fabrics, using extra ma- 
terial. Fabrics backed with extra material. Fabrics having the face and back of 
different material or pattern. Double plain fabrics. Reversible fabrics. Em- 
bossed effects, such as Bedford cords, piques, Marseilles weaves. 

134. Designing 

Designing for leno, pile and lappet fabrics, such as methods of obtaining leno 
patterns. Mechanical appliances for the production of lenos, yoke and jumper 
motions. Bottom doups. Top doups. Check lenos. Jacquard leno-effects. 
Weaving with wire doups. Weaving with the bead motion. Russian .cords. 
Marquisettes. Full turn lenos. 

Pile fabrics, such as velveteens, corduroys, velvets, plushes, carpets, terry 

Lappett weaves. Description of the various lappett motions. Designing for 
original lappett effects. Reproduction of woven lappet patterns. Chain drafts. 
Locking motions. Spot effects. 

135. Jacquard Designing 

Design paper. How to figure the design paper necessary to reproduce any 
Jacquard pattern. Defects of Jacquard patterns and how to avoid them. Trans- 
ferring designs to plain paper. Transferring sketches to design paper. Changing 
the sley of Jacquard fabrics. Method of casting out. Ground weaves. Rules 
for finding sley, pick, warp and filling. Foundations upon which Jacquard pat- 
terns are based. 

136. Jacquard Designing 

Different methods of making designs. Sketching original designs by the differ- 
ent methods commonly used. Working out the sketches upon design paper. Cut- 
ting cards on the piano card-cutting machine. Card lacing. Weaving of at least 
one original design. Method of weaving Jacquard leno designs. Mechanisms re- 
quired in weaving Jacquard lenos. Making Jacquard leno designs. 

Harness tying. Various systems of tying Jacquard harnesses. Lay-over ties. 
Center ties. Compound ties. 

145. Color 

Theory of colors. Complementary colors. Hue, value and chroma scales. 
Practical work in color scales. 

146. Color 

Munsell system of coloring. Color harmony, color effects. Analyzing color 
effects. Practical work in making sequences and in producing colored designs. 









151. Analysis 

Standard methods of representing harness and reed drafts. Harness draft- on 
design paper. Written harness drafts. Chain drafts. Layout plans. Finding 
weight of warp yarns, weight of filling yarns. Yards per pound of cloth. 

152. Analysis 

Finding counts of warp and filling by various methods. Finding yards per pound 
of cloth from a small sample by weighing. Making original designs and weaving 
them on the power loom. Reproduction of woven samples. 

153. Analysis 

Analyzing more difficult samples. Finding average counts. Percentage of each 
material. Production of loom. Price per yard for weaving. Weaving of more 
difficult original designs. 

154. Analysis 

Analysis of leno fabrics, making both written drafts and harness drafts on de- 
sign paper. Chain drafts. Weaving of original leno designs. Changing the con- 
struction of fabrics and preserving balance of structure. 

155. Analysis 

Analysis of more difficult samples continued. Weaving of original samples. 
Work on changing over samples to different constructions. 

156. Analysis 

Continuation of the work outlined in 155. Weaving of students' original 
Jacquard designs. Work on cost of manufacturing fabrics. 

157. Commission House Work 

Study of fabrics known as standard goods, such as prints, percales, satins, lawns, 
organdies, chambrays, voiles, etc. 

Figuring to obtain material for the reproduction of cloths of standard construc- 

Methods of ascertaining counts of warp and filling; also sley and pick for new 

Determining the manufacturing cost of fabrics. 

Working out sketches and writing specifications for new fabrics. 

161. Hand Loom 

The hand loom, its construction and use. Harness drafts as affecting the weave. 
Building harness chains. Practice on the hand loom in weaving fabrics from 
original and other designs, and putting into practice the designing lessons. 

169. Shop Mathematics 

Shop mathematics consists of a review of arithmetic for those who have only an 
elementary knowledge of mathematics and then branches out in the various stand- 
ard formulas and data that are necessary for every mechanical superintendent to 
know. It deals with shop, drafting room, steam and electrical trades. 

Various subjects such as trigonometry, logarithms, graphical charts, strength of 
materials, gearing and mechanisms, etc., are taken up in the class room. 

Textbook: '"'Industrial Mathematics," Farnsworth. 

171. Mechanics 

The fundamental principles of mechanics and physics, with special reference to 
practical uses in textile machinery and to future application in the engineering 
courses, are given in a series of lectures. Practical problems illustrating these 
principles are worked out in the class room. A study is also made of the strength 
and nature of the different materials used in machine construction. 

Textbook: "Practical Mechanics," Hale. 

172. Mechanical Drawing 

The object of this course in mechanical drawing is to give the student a good 
foundation for reading drawings and for making such sketches and drawings as he 


will be likely to be called on to make in practice. Thoroughness, accuracy and 
neatness are insisted upon throughout the course. The work in mechanical draw- 
ing begins with instruction in the use and care of drawing instruments. The fol- 
lowing is a general outline of the work to be covered: plain lettering, geometrical 
constructions, orthographic and isometric projection, inking and tracing, stand- 
ards, conventions and tabulation as used in the modern drafting room. Simple 
working drawings are to be made to scale, and the final work of the year consists 
of free-hand sketching of machine details from parts of textile machinery. This 
brings into use at one time all the work covered during the year, and serves as a 
test of the student's grasp of the subject. 

173. Mechanism 

In view of the large number of mechanisms used in textile machinery this course 
is a very important one. The subject is given by means of lectures and recitations, 
the work in the drawing room being closely related to the classroom instruction. 
This course includes studies and graphical solutions of cams, gears, etc. 

174. Machine Shop 

Shopwork and drawing are organized as one department for the purpose of se- 
curing close correlation of the work. Many exercises are common to the drawing 
room and the shop. In the machine shop an effort is made, not only to train the 
student manually, but also to teach him correct shop methods and practice. Care- 
fully graded exercises are arranged to teach him the use of measuring instruments, 
hand tools and then machine tools. The different measuring tools and devices, with 
advantages, methods of use and limits of accuracy of each, are considered. Each 
cutting tool is taken up, its cutting angles and general adjustments are described, 
together with the "feeds" and cutting speeds suitable for each material worked 
and for each machine. The course includes instruction in centering, squaring, 
straight and taper turning and fitting, outside and inside screw cutting, chucking, 
reaming, finishing and polishing, drilling, tapping, grinding, boring, planing flat 
and V surfaces, filing and gear cutting, including spur, bevel, rack and worm gears. 

When the student becomes proficient in handling the tools and machines, he is 
given work in fitting and assembling, and also repair work from other departments. 

175. Machine Drawing 

Machine drawing is a continuation of the mechanical drawing of the first year, 
and the work is dependent upon a thorough knowledge of how to apply the con- 
ventions of drawing which custom has made standard as given during the first year. 
The work consists of proportioning of machine details as fixed by practice, making 
assembly drawing from detailed sketches, and also detailing parts from assembled 

176. Steam Engineering 

A typical power plant, including the boiler, steam engine and all necessary 
auxiliary apparatus such as is found in a modern cotton mill, is studied in detail. 
Prepared outlines are discussed in lecture periods, and the details supplied by the 
student after reading assignments in standard text and reference books. Practice 
is given in handling engines, apparatus and equipment in the laboratory. Exer- 
cises consist in adjusting, starting and running engines, taking and working out 
indicator cards, prony brake tests, pump and injector tests, etc. 

177. Elementary Electricity 

The elementary principles of magnetism and electricity are taken up in lecture 
and recitation, and are supplemented by laboratory exercises. Emphasis is placed 
on the different wiring systems and electric drives as used in mills and factories. 
A general study is made of a typical electrical power plant, and of the apparatus 
required to generate and distribute electrical energy. 

Textbook: "Essentials of Electricity," W. H. Timbie. 

178. Mill Engineering 

Proficiency in this course depends on the thoroughness with which the work of 
the previous courses was carried on. The course consists of lectures supplemented 

by work in the drafting room. Problems in design, construction and equipment of 
mills and factories are taken up. The subject includes foundations, walls, floors, 
roofs and mill construction in general. The choice of location and the methods of 
transmitting power are discussed. The following outline shows the scope of the 
course: principles underlying the design and construction of framed structures, in- 
volving the use of wood, steel, brick, stone, concrete and reinforced concrete, 
methods of lighting, ventilating and protecting from fire. 

179. Figuring Costs 

One and a half hours a week, during the last term of the general course, is de- 
voted to methods of cost finding in a cotton mill. A complete mill is taken for an 
illustration, and the reports of both the expense and production are used to work 

181. General Chemistry 

This course comprises three lectures of one hour each and nine and one-half 
hours of laboratory work each week. The laboratory work is closely criticized by 
the instructor, and individual effort encouraged. Careful manipulation, thorough- 
ness in observation, accuracy in arriving at conclusions and neatness are required 
of each student. The fundamental principles of the science are taught in connec- 
tion with the descriptive chemistry of the elements. 

No previous study of chemistry is required for admission to this course, but the 
instruction is so arranged that students having already spent considerable time in 
chemistry in other schools are given advanced work in which the knowledge al- 
ready acquired is utilized. 

Textbook: Smith's "College Chemistry." 

182. General Chemistry 

The training afforded by a course in general chemistry is considered of value to 
all the students of the school and also lays the foundation for the subsequent course 
in dyeing. Hence, students taking courses in the cotton or knitting departments 
are required to take general chemistry during the first term of the first year. This 
subject covers the same ground as subject 181, but in a briefer manner. Five hours 
per week are spent in the laboratory and one hour in the lecture and recitation 

Textbook: Smith's "Elementary Chemistry." 

183. Inorganic Preparations 

The time in this subject is devoted largely to laboratory work, with an occa- 
sional explanatory lecture. First the student is taught the best methods of carry- 
ing on the usual laboratory operations, as forming of crystals, precipitates, filtering, 
evaporating and drying. This is followed by the preparation of several salts and 
industrial products, substances being selected that are of particular interest to the 
textile industry. The work is progressive in subject-matter, and so arranged as to 
be co-ordinate with the subject of general chemistry. 

191-192. Qualitative Analysis 

This course comprises one lecture of one hour and twelve hours' laboratory work 
a week during the second term of the first year. The student is taught the prin- 
ciple of systematic qualitative analysis and the application of the principles to de- 
tect the base-forming elements, the acid-forming elements, and the various classes 
of compounds of the bases and the acids. Especial attention is paid to the inor- 
ganic materials ordinarily met with in the manufacture, dyeing and finishing of 
cotton piece goods. The student is required to analyze correctly a sufficient num- 
ber of unknown substances to demonstrate his ability to detect any of the elements 
ordinarily met with. 

Textbook: Noyes' "Qualitative Analysis." 

202. Quantitative Analysis 

The course in Quantitative Analysis is divided into two parts each requiring one 
term for its completion. Stress is laid on the accuracy and integrity necessary for 
quantitative work. Each student is required, under supervision of the instructor, 


to adjust his own balances,, and calibrate the weights, burettes, flasks, etc., that he 
uses, that he may understand the nature and amount of error in his work, thus 
giving him confidence in his results. In connection with the course a thorough 
training in the solution of chemical problems is given. The course comprises one 
lecture each week, the remainder of the time being devoted to laboratory practice. 
The first term is spent in gravimetric determination of chlorine, sulfuric, carbonic, 
and phosphoric acids, and iron, aluminum, calcium and magnesium. 

203. Quantitative Analysis 

This course is a continuation of Course 202 and comprises volumetric analysis 
involving the use of acids, alkalis, oxidizing and reducing agents, and chlorimetry. 
The work on chemical problems is also continued through this term, the problems 
being such as to apply the principles of volumetric analysis. 

212. Organic Chemistry 

This course is divided into two terms, the first term giving a general survey of 
the subject, a thorough training being given in the reactions and properties of the 
various compounds met with in textile industries. The two lower members of the 
paraffines and their derivatives are exhaustively treated. Then the study of the 
higher members is taken up, the unsaturated hydro-carbons and their derivatives. 

Textbook: Remsen & Orndorff's "Organic Chemistry." 

213. Organic Chemistry 

The work of the second term is devoted exclusively to the study of dyestuffs and 
their preparation. The constitutions of various typical dyestuffs are studied to 
determine their influence on coloring power, dyeing properties and fastness to light, 
acids, alkalis, bleaching, etc. In the limited time afforded, the number of dye- 
stuffs studied is necessarily limited, but the training is made so thorough that the 
student is enabled to take up further investigation intelligently should his future 
work demand it. 

222. Textile Chemistry and Dyeing 

These subjects open with a study of the chemical and physical technology of the 
fibers. Lectures are given descriptive of the action of heat, moisture, acids, alkalis, 
oxidizing agents, reducing agents, salts, organic ferments and coloring matter upon 
the fibers. Parallel with these lectures laboratory experiments are carried out by 
the performance of which the student becomes familiar with the chemical and 
physical properties of the various fibers and the actions of the several agents upon 

This is followed by a series of lectures and experiments that illustrate the appli- 
cation of the above principles to practice. The student is taught how to scour 
cotton, wool and silk; how to bleach these fibers by the use of sulphur dioxide, 
chlorine compounds and oxygen compounds. The mercerizing, fireproofing and 
waterproofing of cotton, the chlorination of wool, and the waterproofing of silk are 
also demonstrated. 

Now the application of the dyestuffs to the various fibers is studied. For con- 
venience the dyestuffs, whether of natural or synthetic origin, are classed as either 
substantive, acid, basic or mordant. The best method of application of each of 
the above groups is then taught. The dyed fibers are tested for their fastness to 
light, water, acid, alkalis, milling, stoving, chloring, crocking and hot finishing. 
Modified methods are then considered for the production of especial degrees of fast- 
ness to certain agents by after-treating of the dyed fibers. 

223. Dyeing 

This course is supplementary to the course in textile chemistry and dyeing and 
consists principally in the application of dyes to cotton and practice in color 
matching. Lectures are given as the occasion requires, but most of the time is 
spent in the laboratory. 

At the end of the course the general principles of cotton matching are taken up, 
and experimental work is carried on demonstrating the proper method of obtain- 
ing a given shade by mixing several dyes. Obtaining the value of a dye is taught, 

and the detection of adulterants. Finally, methods for determining the dye, either 
in the form of a dyestuff or on the dyed fabric, are considered. 

Samples acquired in connection with the laboratory practice are mounted and 
bound with the above notes, which they serve to illustrate. 

224. Dyeing 

The laboratory work of this term is mainly devoted to the printing of textile 
fabrics, especial emphasis being laid on cotton. The theory and practice of the 
various styles, such as the pigment style, the direct printing style, the steam style, 
or metallic or tannin mordants, resist and discharge dye styles, the developed azo 
style, the printing of indigo and similar dye stuffs and aniline black are studied. 
The student makes as many different prints as the time will allow. During the 
entire course the student accumulates many samples which he is required to mount 
in a specially designed sample book for his reference in the future. Special stress 
is laid on quality rather than quantity of work done. As often as time permits 
and circumstances demand it, lots of yarn, hosiery, etc., of commercial size are 
dyed by the students for other departments. 

225. Dyeing 

Construction and operation of jiggers. Speed of operation. Penetration of 
solutions used. Selection of dyestuff. Preparation of dye liquor. Dyeing, wash- 
ing and after-treating. 

Construction of dye padders. Selection of material for rolls. Speed of ma- 
chines. Penetration of materials. Selection of dyestuffs. Washing off. After- 

226. Dyeing of Knit Goods 

The object of this course is to give the student an opportunity to dye commercial 
size lots of knit goods and hosiery. Lectures describing the various processes are 
given, and the necessary calculations are taught in connection with this course. 
Scouring and bleaching are also taught. The student is required to make use of 
knowledge acquired in the previous courses in dyeing. 

230. Cotton Manufacture 

Cotton Manufacture is the name assigned to a course of lectures given to the 
second year students in chemistry, so that they may become acquainted with the 
methods employed in the manufacture of cotton yarn and cloth. The various 
machines are thoroughly described and the methods of using them discussed in the 
lecture room. Because of the limited amount of time allowed for this subject the 
students are not taught to operate the machines, but are given an opportunity to 
examine them at rest, and later to observe them in operation. 

233. Textile Chemistry I 

This subject comprises a study of the properties and analysis of soap, mordants 
and other chemicals used in the textile industries. One lecture of forty-five min- 
utes' duration is given each week, and frequent conferences are held with the 
student in the laboratory. The student is required constantly to consult standard 
books of reference in connection with his laboratory work. While the limited 
time devoted to this course does not give enough time for the student to make 
many complete analyses, it does illustrate to him the application of the knowledge 
acquired in the previous subjects of qualitative and quantitative analysis and 
organic chemistry. 

234. Textile Chemistry II 

This subject deals with coal, oil, soap, water, starches, sizing and softening com- 
pounds and textile fabrics. The commercial methods of obtaining the above sub- 
stances, their usual composition and application, is discussed in lectures. The 
laboratory work consists of the analysis of typical compounds, obtained from the 
consumers when possible. The detection of the various starches and fibers by the 
microscope is taught, and their separation and estimation by chemical methods. 
Sizing and loading of fabrics is also discussed. This course is very practical in its 
application, and accurate work is required. 


235. Finishing of Cotton Fabrics 

The object of this course is to give to the designer a knowledge of the various 
methods used in finishing, and the effect of the same on the appearance and con- 
struction of the fabric. Simple methods of distinguishing between different fibers 
and finishes filled and pure starched cloths, are taught. The instruction is given 
by means of one lecture a week and two hours' laboratory practice. 

240. Singeing 

Construction of machine. Function of air pump. Adjustment of gas. Speed 
of operation. Singeing for a face finish. Singeing for a body finish. Determina- 
tion of best conditions for a particular cloth. 

241. Scouring 

Construction of kiers. Methods of circulation. Packing of goods. Time of 
boiling. Washing down. Use and operation of washing machines. Choice of 
scouring agent. 

242. Bleaching 

Construction of chemic vats and cisterns. Application of bleaching solution to 
the goods. Squeezers. Piling down. Precautions to prevent tendering action of 
bleaching agent. Washing. Use of "Antichlors." Openers and scutchers. Se- 
lection of bleaching agent. 

245. Mercerizing 

Construction of mercerizing machine. Design of tenter clips. Proper tension 
in tenter frame. Removal of caustic by washing. Neutralization of last traces. 
Variation in conditions to suit cloth treated. 

250. Drying 

Preparation of goods for drying. Importance of proper mangling. Construc- 
tion and operation of a mangle. Construction of the drying cylinders. Mechani- 
cal limits of speed of operation. Best speed in view of results obtained on goods. 
Static electricity and its grounding. 

Construction and use of tenter frames. Methods of heating, direct and indirect. 
Direction of air currents in relation to that of the cloth. Conditions giving the 
most rapid drying; the best width. Choice of tenter clip for a specific purpose. 

255. Calendering 

Types of calenders and various finishes obtained. Construction of a simple 
calender, friction calender, chasing calender, Schreiner and embossing calenders. 
Speeds and conditions governing the operation of the above machines. Use of 
scrimp bars and stretchers. Gas and steam heating. Metallic rolls, fibrous rolls, 
and finishes produced by them. Care of rolls. Use of water. So-called perma- 
nent calender finishes. Use of beetles and hot presses for preparation for calender- 
ing. Top finishing. 

260. Putting up 

Inspection of goods for faults. Classing as firsts, seconds, thirds and remnants. 
Yarding by flat folding, by rolling machines. Construction and operation of these 
machines. Various folds and put-up required by the several trades. Ticketing, 
banding and papering. Assortment in cases and storage of goods. 

269. Thesis 

Each student who is to graduate from the course in chemistry and dyeing must 
devote twelve hours per week during the last half of his third year to original work, 
and at least one week before graduation must submit to the principal of the de- 
partment a thesis of not less than two thousand words based upon the results of his 
own investigations. 

271. Elementary Knitting 

A study of the various types of winding machines used for cotton, wool and 
worsted yarns preparatory to running on the ribbers and hosiery machines. 

Principles of latch and spring needle knitting and a study of the various types of 

machines used for making rib lops. 

Construction study of the automatic hosiery machines used on coarse gauge work 
including men's, ladies' and children's hose. 

272. Advanced Knitting 

Winding and the preparation of cotton, worsted, rayon and silk yarns used in 

A study of the medium and fine gauge ribbers with draw-string, French welt and 
yarn changing attachments. 

Construction and adjustments used on medium and fine gauge full automatic 
hosiery machines for making plain and fancy pattern hosiery. 

273. Hosiery Finishing 

Fundamental principles and a study of the various types of loopers. 'Rough 
inspecting and the handling of work preparatory to going to the dyeing department. 

A study of the sewing machines used in finishing hosiery, including hemming, 
mock seam, cloc work, etc. 

Cloth analysis and testing of knitting yarns and fabrics. 

274. Hosiery Manufacture 

Mending, drying and pressing. Inspecting, pairing, stamping, folding, banding 
and boxing. 

Scientific management and the handling of goods and records throughout the 
mill and office. 

Cost control and a study of its application to the modern hosiery mill. 

281. Elementary Knitting 

A study of the various types of winding machines used for cotton, worsted, 
merino, rayon and silk yarns used in the manufacture of underwear. 

Principles of latch and spring needle knitting and a study of the various types of 
machines used in making cuffs, sleeves and body cloth. 

282. Underwear Cutting 

A study of pattern making and handling of cloth in the cutting department for 
making a line of men's, ladies', children's and infants' underwear. 

283. Underwear Finishing 

A study of the various finishes used on underwear. 

Setting up, adjusting and a study of the various types and makes of sewing ma- 
chines used in the manufacture of underwear. 
Cloth analysis and testing of knitting yarns and fabrics. 

284. Underwear Manufacturing 

Mending, inspecting, pressing, folding, banding and boxing of the finished gar- 

Scientific management and the handling of goods and records throughout the 
mill and office. 

Cost control and a study of its application to the modern underwear mill. 

293. Miscellaneous Knitting 

Knitting fine French balbriggan cloth, worsted and merino cloth, single and 
double plush cloth, for fleeced-lined underwear, made on spring needle frame. 

Sweater knitting, with racked rib and cuffs, pineapple stitch and fancy-colored 
effects, on circular rib machines. 

Full-fashion sweater knitting on the Lamb full-fashion, hand power machine. 

Knitting gloves on the Lamb hand-power machine. 

Different processes of finishing balbriggan, worsted, merino and fleeced cloth 
into underwear ready for market. 

294. Knitting 

The aim of this work is to give to the student an insight into the class of work for 
which a large part of the yarn in a yarn mill is made. 


The different types of knitting machines are studied, and in each case the effect 
upon the machine and fabric of imperfect yarn is gone into carefully. 

295. Testing 

This course is a study of the methods used in the testing of cotton yarns and 
fabrics throughout the mill. It includes atmospheric conditions and their effect on 
testing, determining moisture regain, tensile strength, twist, evenness, cleanliness, 
cloth analysis and identification of textile fibres. 

300. Picking, Carding and Roving 

Cotton yarn mill machinery. Machines required for making different numbers 
of counts of yarn. 

Picking Room. — Bale breakers or openers, their use and how operated. 

Automatic feeders, their construction, methods of setting and adjusting; evener 
motions, calculations. 

Openers, their use and object. The different kinds used and the class of cotton 
for which they are best adapted. The different kinds of beaters used, and the 
speeds at which they should run. 

Cleaning trunks, their uses and operation. 

Breaker, intermediate and finisher lappers. Different -styles and makes of 
machines. The construction and operation of the different parts, setting and ad- 
justing the different parts, and arranging the speeds to give the best results. Cal- 
culations for speeds, drafts, weights and production on the different machines. 

Cards. — The different kinds of cards used; their construction and operation. 

The revolving flat card. Its principal parts. Different methods of setting, dif- 
ferent settings for different classes of work. The speeds of the different parts, and 
their effect on the quality of the work produced. Construction of card clothing. 
Clothing cylinder doffer and top flats. Stripping and grinding cards. Grinding 
and testing top flats. Covering grinding rolls. Splicing driving ropes and belts. 

Calculations for speeds, drafts, production, per cent of waste, etc. 

Roving Frames. — The different processes used. The construction and use of the 
roving or fly frame. 

Speeds of the different size frames and the different parts of the frame. 

The different styles of differentials used and their object. 

Cone drums. The effect of the shape of the cones on the running of the frames. 
Levelling and adjusting roving frames. Balancing flyers, and the effect of un- 
balanced flyers on the running of the frame. 

The effect of draft and twist on the quality and quantity of the work produced. 

Roller setting. Calculations for speeds, drafts, twist, tension and lay Calcula- 
tions for differentials, cone drums and productions. 

301. Special Knitting 

Operations preliminary to knitting. Winding, cone winding, bobbin winding. 
Development of knitting. Knitting needles. Construction and operation of latch 
and spring needles. Knitting on circular and flat machines. Study of the results 
of uneven, mixed and otherwise imperfect yarns in the knitting process, and the 
effect upon the machine and fabric. 

302. Drawing Rolls and Drawing Frames. Ring Spinning. Doubling and 


Drawing Rolls. — The different kinds of rolls used, their construction, methods 
of covering, setting and adjusting for different kinds of work. Clearers for draw- 
ing rolls. 

Drawing Frames. — The railway head and evener draw frame. The construc- 
tion and arrangement of drawing frames. Different methods of gearing, weighting 
and stop-motions for draw frames. Calculations for speeds, drafts, dividing drafts, 
production, etc. 

The Ring Spinning Frame. — Its construction and use. The construction and 
adjustment of the different parts, such as spindles, rings, travelers, rollers, builder 
motions, etc. Making bands. Comparing different drives for spindles. Twist 
in yarn, its effect on strength and production. Calculations for speeds, drafts, 
twist and production. 


Doubling and Drafting. — Laying out drafts and weights al the different ma- 
chines from picker to spinning frame for making different numbers of yarn. 

Calculating the number of machines required at the different processes to pro- 
duce a required amount of yarn of different numbers. 

Calculating the labor cost of making roving or yarn, using different methods. 

Calculating the effect of draft at the different machines on the production and 
cost of the yarn made. 

303. Combing and Mule Spinning 

Sliver and ribbon lap machines. Construction of the different machines. 
Methods of setting and operating same. 

Combers. — The different kinds of combers used; their speeds and production-. 
Comber setting and adjusting and methods of operating. 

Roll Varnishing. The percentage scale and its use. Practice work in setting 
and operating the different combers. 

Calculations for speeds, drafts, productions, etc., on the lap machines and 

Mules. — The spinning mule and its uses. The special features of the mule. 
Description of the construction and operation of the different parts of the mule. 
Calculations for speeds, drafts, etc., and all calculations required in making changes. 

Practice work in laying out and carrying through the work for making different 
counts of yarn from the raw stock to the finished thread. 

304. Twisting and Cotton Classing 

The Object of Twisting. — Different styles of twisters used. Wet and dry 
twisting. Direction of twist. Effect of twist on the strength, weight or counts. 

Preparing yarn for twisting. 

Making ply threads, cords, cordonnet and sewing threads. 

Sizes of rings and spindle speeds for different threads. Calculations for speeds, 
twists and productions. 

Cotton Classing. — Different species of cotton plants. 

Cultivation of cotton. The different varieties of cotton and the class of goods 
for which they are best adapted. 

Cotton picking, ginning, baling and marketing. The selection of cotton for 
different classes of goods. 

Cotton grading and stapling. 

Practice work in running work from raw stock to spinning and twisting. 

305. Test Work and Roller Covering 

Test Work. — Testing different classes of cotton and comparing results for waste 
removed and strength of yarn made. Testing different methods of handling cotton, 
using different speeds; drafts and numbers of processes used and comparing results. 

Roller Covering. — Covering top roll and under clearers. 

Cutting, piecing, drawing on, burning down and burnishing. 

306. Yarn Testing and Comber Reneedling 

Yarn Testing. — Testing yarns for weight or counts, breaking weight (skein or 
single). Inspecting yarn, testing for moisture, amount of twist in single or ply 
yarn. Testing for contraction in single yarn; for contraction or expansion in ply 
threads. Testing for elasticity. 

Comber Reneedling. — Cleaning off, setting needles, soldering on, building half 
laps, polishing and finishing same. 

Practical work in running tests through the machines. 

Chemistry Department 

Smith's "Elementary Chemistry," Noyes' "Qualitative Analysis," Talbot's 
"Quantitative Analysis," Remsen & Orndorff's "Organic Chemistry," Blanchard s 
"Synthetic Inorganic Chemistry," Smith's "College Chemistry." 


Mechanical Department 

"Practical Mechanics," Hale; W. H. Timbie's "Essentials of Electricity." 
"Industrial Mathematics," Farnsworth. 

Other Departments 

No textbooks are used in the departments other than those named above. Lec- 
tures are prepared by the heads of the departments covering the work in detail, 
multigraphed, and sold to the students at cost. These, with design books, design 
pads, color supplies and notebooks, constitute the working material to be provided 
by students. 


Evening instruction, similar to the day, on the same machinery and by the heads 
of the day departments assisted by practical skilled men from the mills, is given 
for the benefit of workers in local mills and machine shops. The instruction in the 
evening classes is divided into sections so as to give the greatest possible facilities 
to the students in these classes. 

Certificates are granted to all students in the evening classes who have success- 
fully completed the equivalent to two years' work, two evenings a week. The 
certificate states the subjects that the student has passed in, and the length of time 
he has devoted to the work. 

Evening students are enrolled at the commencement of both the fall and spring 
terms. The subjects taken up in the different evening courses follow the detailed 
topics as specified on pages 26 and 27. 

Students enrolling in the regular Chemistry and Dyeing Course are required to 
make a deposit of $5 for brbeakage. In case the breakage causd by any student 
does not equal the amount of his deposit, the balance is returned to him at the end 
of the school year, but if the actual breakage exceeds this amount, an additional 
charge is made. 

The school is in session four evenings a week for twenty-four weeks, — Monday, 
Tuesday, Thursday and Friday, from 7.30 to 9.15 for all classes except those taking 
the Chemistry and Dyeing Course. Those classes are held three nights a week, — 
Monday and Tuesday, from 7 to 9.30 and Thursday, from 7.15 to 9.15. 

For terms of admission, see pages 28 and 29 of this catalogue. 

Carding and Spinning Department 

Picking, Carding and Drawing: one year, two evenings a week. 

Combing : one term, two evenings a week. 

Roving Frames : one term, two evenings a week. 

Ring Spinning and Twisting : one term, two evenings a week. 

Mule Spinning: one year, two evenings a week. 

Cotton Classing : one term, one evening a week. 

Advanced Calculations in Carding and Spinning : one year, one evening a week. 

Mill calculations : one term, two evenings a week. 

Weaving and Warp Preparation Departments 

Spooling, Warping and Slashing: one term, two evenings a week. 
Automatic Loom Fixing : one term, two evenings a week. 
Plain Loom Fixing: one term, two evenings a week. 
Fancy Loom Fixing: one term, two evenings a week. 
Jacquard Loom Fixing : one term, two evenings a week. 
French, Portuguese and Polish Classes in Loom Fixing. 
Advanced Calculations in Weaving : one term, two evenings a week. 
Warp Drawing for Women : one term, two evenings a week. 

Designing Department 

Elementary Designing : one term, two evenings a week. 
Advanced Designing : one term, two evenings a week. 

Elementary Analysis: one term, two evenings a week. 
Advanced Analysis: one term, two evenings a week. 
Jacquard Designing: one term, two evenings a week. 

Knitting Department 

Special Knitting: two evenings a week each term. 

Rayon Department 

Chemistry of Cellulose. — Preparation of Basis Materials. Various processes 
of manufacture. Dyeing and finishing. 

Physical Properties. 

Rayon Processing. — Winding. Weaving. Knitting. One term, one evening 
a week. 

Inspecting. — Grading of Skein Rayon: one term, two evenings a week. 

Engineering Department 

Mechanical Drawing: one year, two evenings a week. 
Advanced Drawing: one year, two evenings a week. 
Machine Drawing : one year, two evenings a week. 
Mechanical Designing : one year, two evenings a week. 
Machine-shop Practice: one year, two evenings a week. 
Advanced Shop Work : one year, two evenings a week. 
Steam Engineering, Boilers: one term, one evening a week. 
Steam Engineering, Engines : one term, one evening a week. 
Elementary Electricity : one year, one evening a week. 

Chemistry Department 

General Chemistry: one year, two evenings a week. 
Qualitative Analysis : one year, two evenings a week. 
Quantitative Analysis : one year, two evenings a week. 
Organic Chemistry : one year, two evenings a week. 
Textile Chemistry I: one year, two evenings a week. 
Textile Chemistry II : one year, two evenings a week. 
Dyeing I: one year, two evenings a week. 
Dyeing II : one year, two evenings a week. 
Dyeing III : one year, two evenings a week. 


Cost Finding : one term, two evenings a week. 

Evening Diploma Courses 

The school diploma will be granted to those students of the evening classes who 
successfully complete the work specified under the following courses: — 

I. Carding and Spinning. — Picking, Carding and Drawing, Roving Frames, 
Combing, Ring Spinning and Twisting, Mule Spinning, Cotton Sampling, Ad- 
vanced Calculations in Carding and Spinning, Mechanical Drawing, Advanced 

II. Weaving and Designing. — Spooling, Warping and Slashing, Plain Weaving 
and Fixing, Fancy Weaving and Fixing, Elementary Designing and Cloth Con- 
struction, Advanced Designing and Cloth Construction, Jacquard Designing, Cot- 
ton Sampling, Mechanical Drawing, Advanced Drawing, Cost Finding. 

III. Chemistry and Dyeing. — General Chemistry, Qualitative Analysis, Quan- 
titative Analysis, Organic Chemistry, Textile Chemistry I, Textile Chemistry II, 
Dyeing I, Dyeing II, Dyeing III, Mechanical Drawing, Advanced Drawing. 

Courses for Women 

Several courses are open for women in both the day and evening classes and a 
number have pursued them successfully. They are as follows: — 

Textile Designing. Cotton Sampling. 

Chemistry and Dyeing. Warp Drawing. 

Cost Finding. Rayon Inspecting. 



Candidates for admission to the regular day courses must be at least sixteen 
years of age. Those who have been students of other technical institutions, col- 
leges or universities are required to furnish a certificate of honorable dismissal from 
those institutions. Candidates having a graduate's certificate from a high school 
or other educational institution of equal standing are admitted without examina- 
tion. Other applicants for admission are required to undergo examinations in 
arithmetic, English, and commercial geography. 

Candidates for the Junior Course should be fourteen years of age and have been 
graduated from grammar school. 

A candidate, whether desiring to be enrolled on certificate or by passing the 
entrance examination, must fill out an application blank, which should be delivered 
at the school as early as possible before the opening of the year. 

Applicants desiring to take up special studies in the school may be admitted 
provided their applications are approved by the Principal. Such students shall 
be known as specials, and, upon satisfactory completion of their work in the school, 
shall be given certificates stating the work they have covered and the time they 
have been in attendance. 

No applicant is admitted to the regular courses of the school after the first four 
weeks unless he has already covered the work of the school for the time preceding 
the date of his application ; nor shall any change in any student's course be made 
after the first four weeks of admission except by permission of the Principal. 


The examinations for those desiring to enter the school at the opening of the fall 
term of 1930 will be held at the school only, on Wednesday, June 4 and on Friday, 
September 5 at 9 a.m. 

The detailed topics dealt with in the entrance examinations are as follows: — 


Definitions, addition, subtraction, multiplication, division, factors, multiples, 
cancellation, fractions, decimals, percentage, interest, ratio and proportion, square 
root, compound quantities, mensuration, metric system. 


The candidate will be required to show his ability to spell, capitalize and punctu- 
ate correctly ; to show a practical knowledge of the essentials of English grammar, 
a good training in the construction of the sentence, and familiarity with the simple 
principles of paragraph division and structure. 

He will be required to write a business letter, and one or more short articles on 
subjects assigned from which he may select. Ability to express himself clearly and 
accurately will be considered of prime importance. 

Commercial Geography 

Farm products of the United States, where raised; our mines, and where located; 
our manufactures, and where established; our exports, and to what countries; our 
imports and from what countries; our transportation facilities. 


Candidates for admission to evening classes must be at least fourteen years of age. 

Those desiring to enter any of the courses in the various departments must 
satisfy the head of the department which they desire to enter that they have suf- 
ficient knowledge to be benefited by the instruction offered. 


Day Students. — No tuition fee is charged day students who are residents of 
Massachusetts. For non-resident students the fee is $150 a year, and for students 
from foreign countries $300 a year, payable in advance in two equal installments, — 
at the opening of the fall term and at the end of the first semester. No student 

shall be admitted to the classes until his tuition is paid. No fees are refunded ex- 
cept by special action of the Board of Trustees. 

The above fee includes admission to any of the evening classes in which there is 
accommodation, and which the day students may desire to attend. 

A deposit of $10 is required of all ,day students taking' the regular Chemistry 
and Dyeing Course. A deposit of $5 is required of students taking chemistry in 
connection with any other course. A deposit of $2.50 is required of students taking 
converting. These deposits are to cover the cost of any breakage that may occur, 
but in case the actual breakage exceeds this amount an additional charge is made. 
Any unexpended balance is returned at the end of the year. To non-resident and 
foreign students a further charge of $10 for chemicals is made. 

Students are required to supply themselves with such books, tools and materials 
as are recommended by the school, and pay for any breakage or damage that they 
may cause in addition to the above-named fee. A fee of $3 is charged each day 
student, except first year Juniors, to be used for assisting in the maintenance of 
athletics in the school. 

All fees are due at the beginning of each school year. 

Evening Students. — No tuition fee is charged evening students. Students en- 
rolled in the Chemistry and Dyeing Course are required to make a deposit of $5 
for breakage. In case the breakage caused by any student does not equal the 
amount of his deposit, the balance is returned to him at the close of the school 
year, but if the breakage is in excess of this deposit, the student is charged the 
additional amount. Evening students are required to supply themselves with 
such books and materials as are recommended by the school, but this charge is small. 


The school hours for the day classes are from 8.30 to 12 each morning except 
Saturdays, with afternoon sessions from 1.30 to 4.30 except Saturdays. For ses- 
sions of evening classes see page 26. 


Written examinations are held twice a year, and other tests from time to time to 
determine the standing of students in their work. 

The final examination is held at the end of the spring term. Results of these 
examinations, together with the student's marks recorded from recitations, practi- 
cal demonstrations and student's books are taken into account in ranking students 
at the end of each year and for graduation. Unsatisfactory progress necessitates 
the student repeating his studies. 

Diplomas are given on the satisfactory completion of a course of study extend- 
ing over a period of three years in connection with each course, if the student's 
record is otherwise satisfactory. 

Students taking special courses in most cases, are entitled to a certificate if they 
honorably and satisfactorily complete the course of instruction scheduled. 

Day students are required to spend as much time daily out of school hours in 
study, such as recording lectures and other notes, as may be necessary to maintain 
proper standing. The students' books are examined by the instructors periodi- 
cally, and the care and accuracy with which they are kept is considered in ranking 


Students are required to conduct themselves in an orderly and gentlemanly 
manner while in attendance at the school. When the conduct of any student is 
considered by the Principal of the school detrimental to its best interests, he will 
be suspended by him and the case reported to the Board of Trustees for action. 

Any student who presents at any time work as his own which he has not per- 
formed, or tries to pass an examination by dishonorable means, shall be regarded 
as having committed a serious offence. 

Students shall exercise due care in the use of the school apparatus and machinery. 
All breakages and accidents must be reported at once to the instructor in charge 
and the student will be held liable for any wilful damage or the result of gross 



Day students taking the regular courses are required to attend every exercise of 
the school; special students, every exercise called for by their schedules. For 
every case of absence or tardiness students must present an excuse to the Principal. 
A certain number of unsatisfactory excuses will render the student liable to sus- 
pension and further action if cause is sufficient. 

When the attendance of an evening student is unsatisfactory he will render 
himself liable to be dropped from the school. 


New Bedford is unusually desirable as a residential city, and students will find 
numerous houses of private families and boarding houses where they may obtain 
room and board. 

No requirements are made as to residence of out-of-town students, although 
facilities are given by having addresses of suitable houses on file at the school. 

No definite estimate can be made of the cost, as this depends entirely on the 
tastes of the student, but board and room may be obtained for from $12 per week 


Students are required to purchase such materials, textbooks, tools and apparatus 
as may be required from time to time by the school authorities, or make deposits 
on such as are loaned to them. The supplies required vary with the courses for 
which the students enter, the cost being from $20 to $40 per year. 


The school maintains a library that contains all the best works on carding and 
spinning, weaving, designing, knitting, dyeing and mechanics; also a consulting 
encyclopedia and an international dictionary. Catalogues and pamphlets dealing 
with machinery or processes related to textile work are also on file, as are all the 
leading textile journals and trade papers. The students have access to the library 
during school hours. 


The school has an athletic association, and the students participate actively in 
various sports and games. The school is equipped with a gymnasium, locker 
room and shower baths. There are several athletic fields open to the students for 
their outdoor sports. The management of the school will give all reasonable en- 
couragement and support to the furtherance of healthful recreation and manly 
sports for its students. 

For fee for same see page 29 of this catalogue. 



The donation of William Firth, Esq., has established a scholarship at the New 
Bedford Textile School, primarily for the benefit of a son of a member or of a de- 
ceased member of the National Association of Cotton Manufacturers, furnishing 
to the recipient of such scholarship $180 a year for the course. Candidates for this 
scholarship must apply by letter only, addressed to the National Association of 
Cotton Manufacturers, P. 0. Box 3672, Boston, Mass. The candidates must be at 
least sixteen years of age and furnish certificates of good moral character, and those 
who have been students of other technical institutions, colleges or other universi- 
ties are required to furnish certificates of honorable dismissal from such institu- 
tions. Those applicants conforming to the above conditions are nominated by the 
Board of Government to the New Bedford Textile School, and the selection of the 
candidate for the scholarship is made as the result of an examination held at New 
Bedford, Mass. Every candidate, previous to the examination, must file an ap- 
plication at the school for admission, agreeing to observe the rules and regulations 
of the school. Candidates are eligible for any of the courses included in the 
curriculum of the school. 


In case the son of a member or of a deceased member of the National Association 
of Cotton Manufacturers does not apply for the scholarship, any person eligible 
for entrance to the school may make application. 

This scholarship will be available in the fall of 1931. 



The donation by the Passaic Cotton Mills Corporation and its employees of the 
sum of $3,000 has established a scholarship at the New Bedford Textile School, 
primarily for the benefit of the employees of the Passaic Cotton Mills Corporation 
and in accordance with an indenture entered into between the above-named 
Passaic Cotton Mills Corporation and its employees and the Trustees of the New 
Bedford Textile School. 

In default of any application from an employee of the Passaic Cotton Mills 
Corporation who is deemed by the Trustees of the New Bedford Textile School as 
qualified to enter that institution, the Trustees of the New Bedford Textile School 
may, at their discretion, nominate, with the approval of the Passaic Cotton Mills 
Corporation, some other person to be the beneficiary of this scholarship. Such 
applicants must comply with such reasonable regulations and conditions as said 
New Bedford Textile School may from time to time adopt in relation thereto. 

From said applicants one shall be selected by the Trustees of the New Bedford 
Textile School as a beneficiary of said scholarship. 

This scholarship will be available in the fall of 1930. 


The Massachusetts Charitable Mechanic Association is giving four scholar- 
ships each, $250 a year, to this school to be given to four deserving students to 
assist them in obtaining a technical education. It is understood that the persons 
securing these scholarships must prove themselves worthy in order to retain them. 


The National Association of Cotton Manufacturers offers a medal to be awarded 
each year to the student in the graduating class who shows the greatest proficiency 
in scholarship. This is determined by an examination of the records of the 
students' progress throughout their studies, which are recorded and reported upon 
by the instructors and kept permanently on file. 

The competition for this medal is open to all day students who graduate in the 
Complete Cotton Manufacturing Course, or to evening students who have com- 
pleted studies comprised in that course and graduated therein. The association 
offering the medal has made it a condition of the award that at least four members 
of the graduating class be eligible to the competition. 


This medal is awarded to the member of the freshman class, taking the General 
Cotton Manufacturing Course, who ranks the highest in scholarship for the year. 
It is presented by the Alumni Association, to commemorate the day of Mr. William 
E. Hatch's retirement from the presidency of the school. 


This medal is presented by Mr. Victor O. B. Slater, a graduate of the evening 
classes of the school, in memory of his father, Peter Slater, who was a loyal friend 
of the school. It is awarded to the student, graduating from the evening classes 
in Textile Design, who has attained the highest standing for the two-year course. 



This department occupies nearly the entire first floor of the machinery building, 
and has approximately 9,000 square feet of floor surface. The equipment is large 


and diversified, enabling the students to become acquainted with practically all the 
leading makes of machines found in the carding or spinning departments of cotton 

A special feature of the equipment is the large number of models of the principal 
parts of the different machines in this department. These models are so mounted 
that the different settings and adjustments can be made equally as well as on the 
machine itself, and thus enable the student to grasp more readily the essential 
points, since the parts are much more readily accessible. 

The department is humidified by the system of the American Moistening Com- 
pany, Bahnson humidifiers, the Parks-Cramer Company's Turbo System and the 
American Air Purifying Company's portable humidifiers, automatic control. 

Carver Cotton Gin Co.: 1 18 saw cotton gin. 

Saco-Lowell Shops : 1 roving waste machine ; 1 automatic feeder ; 1 opener and 
breaker lapper ; 1 finisher lapper ; 1 card ; 1 evener draw frame ; 1 two-head 
draw frame ; 1 fine roving frame ; 2 spinning frames ; 1 Perham & Davis evener 
motion complete with feed rolls and cones. 

H. & B. American Machine Co.: 1 finisher lapper; 2 cards; 1 drawing frame; 

2 roving frames; 2 spinning frames; 1 section of arch with bend; 1 spinning 
builder motion; 1 roving builder motion; 2 differentials. 

Mason Machine Works: 1 card; 1 railway head. 

John Hetherington & Sons, Ltd.: 1 card; 1 sliver lap machine; 2 combers; 1 

mule; 1 camless winder; 1 nipper model. 
Potter & Johnston: 1 card. 
Whitin Machine Works: 2 cards; 1 sliver lap machine; 1 ribbon lap machine; 

3 combers; 1 drawing frame; 2 roving frames; 2 spinning frames; 1 model 
spinning builder. 

Woonsocket Machine & Press Co.: 1 card; 2 drawing frames; 2 roving frames; 
1 differential; 1 roving builder motion ; 1 gassing machine; 1 combination bale 
breaker, Crighton opener and horizontal cleaner. 

Dobson & Barlow: 1 fine roving frame; 1 roller and clearer card; 1 mule. 

Asa Lees : 1 roving differential motion. 

Fales & Jenks Machine Co.: 3 spinning frames; 1 twister. 

Draper Corporation: 2 twisters; 1 banding machine. 

Collins Brothers : 1 twister. 

Universal Winding Company: 4 winders. 

Foster Machine Co.: 2 doubling winders. 

Miscellaneous Equipment: Roller covering machinery; apparatus for comber 
re-needling; card clothing machine; ball and spool winding machines. 

Testing Apparatus: 3 single thread testers; skein and cloth tester; conditioning 
and testing machine; inspecting machine; yarn and roving reels; yarn bal- 
ances; percentage scale ; micro-photographic machine ; twist counters; thread 
splicers, electric oven recording thermometer, recording hygrothermograph 
and rotostat ; 1 fibre tester. 


This department occupies all of the second floor of the machinery building and 
contains about 15,000 square feet of floor area. The equipment is very complete 
and includes sufficient machinery to enable each student to obtain all the practical 
experience required in connection with his studies. All of the latest machinery is 
represented in this equipment, and, as the machinery is made especially for use in 
the school, it fully meets the needs of the students. Besides the machinery listed 
below there are models for demonstrating leno motions, box motions, warp-stop 
motions, etc. 

Draper Corporation : 4 automatic looms, plain, 2-harness ; 1 automatic 5-harness 

cam loom; 1 automatic 20-harness dobby loom; 1 spooler; 2 warpers. 
Crompton & Knowles Loom Works : 5 plain 3-harness, 4 plain 4-harness, 5 plain 
5-harness looms; 16x1 gingham loom; 12x1 automatic bobbin changing 
gingham loom; 14x1 gingham loom; 13x1 12-harness towel loom; 14x1 
20-harness No. 13 multiplier loom; 1 20-harness double cylinder loom; 2 20- 
harness dobby looms ; 2 2-bar lappet looms ; 3 25-harness 2x1 box and leno 
motion looms; 8 16-harness 2x1 box and leno motion looms; 3 25-harness 

leno motion looms; 10 20-harnesa leno motion loom-; 1 rise and drop Jaequard, 
200 hook loom; 1 double-lift Jaequard, 208 hook loom; l double-lift Jaequard, 
300 hook loom; 1 double-lift Jaequard, 400 hook loom; 2 4x1 20-harnesfl leno 
motion looms; 2 4x1 20-harness dobby double cylinder automatic bobbin 
changing looms; 2 4x4 20-harness (lobby looms; 2 25-Harnese Cotton King 
4x1 Automatic and leno motion looms. 

Whitin Machine Works: 2 plain, 3-harness looms; 2 plain, 4-harnese loom.-; 
9 plain, 5-harness looms; 1 25-harness 2 x 1 box motion loom; 1 25-harnesfl 
2x1 box motion and leno motion loom; 3 25-harness leno motion loom-: 1 
20-harness leno motion loom. 

Stafford Co.: 1 20-harness automatic shuttle changing loom; 1 25-harness dobby 
loom; 1 plain automatic shuttle changing loom. 

Hopedale Mfg. Co.: 1 Nordray plain, 2-harness, automatic loom. 

Easton & Burnham Machine Co.: 1 spooler. 

T. C. Entwistle Co.: 1 warper; 1 ball warper; 1 beamer. 

Howard & Bullough Machine Co.: 1 slasher. 

22 drawing-in frames. 


The design classroom is located on the third floor of the recitation building, and 
is a large, well-lighted room containing all the appliances necessary for instruction 
in this important subject. Special attention has been given to the method of 
lighting this room to give the best results, and the desks are made with special 
reference to the needs of the student of designing. 

The hand loom work is located in a large room on the third floor of the machinery 
building. This room contains twenty-seven hand looms adapted to the use of 
students in experimental work, and in putting into practice the theory of designing, 
and also to enable them to produce certain of the designs that they are taught in 
the designing class. There is also a 20 spindle bobbin winder and one hand winder. 
The room is well lighted by a saw tooth roof. 

The card cutting room contains tw6 Royle card cutting machines and a card 
lacing frame, thus enabling the students working Jaequard designs to cut their 
own cards. 


Instruction in the mechanical department is carried on in five different rooms 
located in various parts of the recitation building. These rooms are arranged and 
fitted out with apparatus to meet the needs of the students following this course. 
The department is subdivided into the following sections: mechanical drawing, 
textile engineering and machine-shop work. 

Mechanical Drawing. — The drafting room is located on the second floor of the 
recitation building and is well lighted by northern and western exposures. It is 
equipped with independent drawing tables and lockers for the drawing boards and 
materials. For the student's use in connection with their drafting instruction there 
is a collection of models, mechanical apparatus and machine parts. On the third 
floor there is a swinging blue print frame mounted on a track, and a large dark 
room fitted with a^Wagenhorst Electric Blue Printer and modern conveniences for 
blue printing. 

Steam Engineering and Elementary Electricity. — Instruction in steam engineer- 
ing and elementary electricity is given both in theory and practice. The theoreti- 
cal part of the course is carried on in a large recitation room on the second floor, 
while the practical side is studied in the engineering laboratory in the basement of 
the recitation building. The laboratory is supplied with steam direct from the 
boiler room and also has gas and water connections. 1 12" x 24" Wetherell Corliss 
Engine ; one 5-horsepower Sturtevant Vertical Steam Engine, and models of boilers, 
engines and pumps. 

For the study of electricity there is provided a source of alternating current at 
110 volts and 220 volts pressure. 

1 2KW Holtzer-Cabot direct current Generator; 1 5-horsepower Holtzer-Cabot 
Induction Motor; 1 2V2 KW Holtzer-Cabot compound wound Converter; an as- 
sortment of voltmeters, ammeters, wattmeters, galvanometer, foot candle meter, 
transformers, etc. 


Machine Shop. — This department occupies about 2,800 square feet of floor sur- 
face on the first floor of the recitation building. The machinery is electrically 
driven and the equipment modern. 

7 12" x 5 ft. Reed Prentice engine lathes; 3 12" x 6 ft. Reed Prentice engine 
lathes; 1 18" x 8 ft. Reed Prentice Engine lathe; 1 14" x 6 ft. Reed Prentice quick 
change gear engine lathe; 1 14" x 6 ft. Whitcomb-Blaisdell quick change gear engine 
lathe; 1 14" x 6 ft. Hendey quick change gear engine lathe; 2 14" x 6 ft. Flather 
engine lathes; 1 7" x 5 ft. Reed Prentice speed lathe; 1 10" x 5 ft. speed lathe; 1 20" 
Prentice drill; 2 Bench drills; 1 No. 4 Reed "Barr" single sensitive spindle drill; 
1 No. ly^ Brown & Sharpe universal milling machine; 1 No. 2 Brown & Sharpe 
universal milling machine; 1 16" Potter & Johnson universal shaper; 2 16" Ohio 
shapers; 1 24" x 6 ft. Woodward & Powell planer; 1 Morse plain grinder; 1 Green- 
field universal grinder, complete ; 1 2V2" x 20" Diamond water tool grinder ; 1 2" x 
12" Builders bench grinder; 1 4" x 28" Douglas grindstone; 1 Millers Falls power 
hack saw; 1 Peerless electric tool post grinder; 1 Cincinnati electric hand drill; 
1 Westmacott gas forge; 1 Wallace circular saw; 1 4" Wallace planer; 1 Cabinet 
containing milling machine attachments, small tools and minor apparatus; 1 Brown 
& Sharpe No. 2 wire feed screw machine; 1 Oxweld welding equipment; 1 Black & 
Decker electric drill. 


This department occupies about 13,600 square feet, situated in the basement and 
on the first and third floors of the recitation building. This space is divided into 
four laboratories, a lecture and recitation room, a reading room and office for the 
Principal of the department, and two store-rooms. The general chemistry and 
dyeing laboratory is a large, well-lighted room, 63 feet 6 inches by 20 feet, on the 
first floor, and is especially designed to meet the needs of the students in the general 
courses. This laboratory is equipped with forty-two double desks in rows of three 
desks each. At the end of each row is situated the sink and dye bath. Along the 
wall, on the opposite side are the hoods. In the main special laboratory each 
student has desk space, 2 feet by 8 feet, and his own desk, dye bath and draught 
hood. Conveniently located are a large drying oven, four 10-gallon dye kettles, 
and one 20-gallon dye kettle. This laboratory is equipped at each desk with gas, 
water and suction in order that the student's work may be carried on with the 
utmost celerity conducive to the best results. This laboratory is also equipped 
for analytical work and has 9 balances, a polariscope, 1 Spencer microscope No. 5, 
triple nose piece, objectives 16, 4, and 1.8 oil immersion, mechanical stage; 1 Spen- 
cer rotary microtome, 2 other microscopes, an Emerson calorimeter, a Westphal 
balance, a Saybolt universal viscosimeter, and other special apparatus. The 
laboratory for converting cotton textiles is located in the basement. It contains 
the machines necessary to demonstrate in practical proportions the operations in- 
volved, such as a single-burner Butterworth gas singer complete with air pump 
and spark extinguisher, a 100 lb. Jefferson kier, an experimental piece mercerizing 
machine, a 3 roll padding machine, a 6 cylinder horizontal drying machine, 
equipped with the Files exhausting system, 2 40" jigs, a steam heated calender, 
and a 30 foot automatic tentering machine with Butterworth patent automatic 
clips. In this laboratory, there is also a small Hussong dyeing machine and a 
Franklin dyeing machine for yarn dyeing. On the Hussong machine there is a 
Tagliabue temperature controller. A high top cloth folder and a Dinsmore port- 
able sewing machine are part of the equipment, although situated in another room. 
There is also one laboratory printing machine from the Textile-Finishing Machin- 
ery Company and one fade-ometer. 


The knitting department occupies two large connecting rooms on the top floor of 
the machinery building, and contains about 6,600 square feet of floor area. The 
equipment is very complete, there being a greater number of machines and a 
larger variety than can be found in any similar school in the world. The work 
that has been produced by the students of this department has received high praise 
from some of the leading experts in the knitting trade, the hosiery and underwear 
taking especially high rank. 


Crane Mfg. Co.: 1 36-gauge spring needle table, 18" and 21" cylinders; 1 15" 8 
cut rib body machine; 1 19" 14 cut, rib body machine with Crawford stop 


Hemphill Co.: 1 "Banner" 3%" 176 needle automatic footer; 1 "Banner" 3%" 
220 needle automatic footer; 1 "Banner" 3*/ 2 " 240 needle automatic striper; 
1 "Banner" 3*/ 2 " 240 needle split footer. 

Jenckes Knitting Machine Co.: 1 "Invincible" 4" 108 needle automatic footer; 
1 "Invincible" 3%" 188 needle automatic footer; 1 "Invincible" 3" 120 needle 
automatic footer; 1 "Invincible" 3%" 240 needle automat if footer; 1 "In- 
vincible" 3%" 176 needle automatic footer; 1 "Invincible" 3%" 160 needle 
automatic footer. 

Fidelity Machine Co.: 1 3*/ 2 " 220 needle automatic ribber; 1 3*/ 2 " 240 needle 
automatic ribber; 1 3" 180 needle automatic ribber. 

H. Brinton Company: 1 3%" 108 and 188 needle automatic ribber; 1 4" 84 and 
160 needle automatic ribber; 1 3y 2 " 240 needle automatic ribber; 1 6" 480 
needle ribber; 1 4%" 90 needle scarf machine. 

Lamb Knitting Machine Co.: 1 6-cut scarf machine; 1 flat 8-cut glove machine. 

Mayo Machine Co.: 1 3%" 176 needle automatic footer; 1 3y 2 " 188 needle 
automatic footer; 1 3V 2 " 200 needle automatic footer; 1 3y 2 " 220 needle auto- 
matic footer. 

Scott & Williams: 1 3%" 176 and 200 needle automatic ribber; 1 3%" 176 and 
180 needle automatic ribber; 1 4 1 / 4" 180 needle automatic ribber; 1 4*4" 216 
needle automatic ribber; 1 4*4" 276 needle automatic ribber; 1 4*4" 300 
needle automatic ribber; 1 3*4" 160 needle automatic sleever; 1 3%" 264 
needle automatic ribber; 1 10" 8 and 10-cut automatic rib-body machine; 
1 13" 10-cut automatic rib-body machine; 1 20" 12-cut plain and 2-2 body 
machine; 1 18" 26-cut Balbriggan bodv machine; 1 20" 16-cut Balbriggan 
body machine; 1 20" 14-cut rib-cuff machine; 1 3y 2 " 240 needle Model K. 
machine; 1 3%" 200 needle Model HH machine; 1 3%" 160 needle Model RI 
machine; 1 3*4" 140 needle Model RI machine; 1 finishing machine; 1 bar- 
stitch machine; 1 chain machine; 1 12-point looper; 1 3y 2 " 280 needle Model 
K machine; 1 220 needle Model HH Spiral float machine. 

Wildman Mfg. Co.: 1 3%" 200 needle fancy pattern automatic ribber; 1 2%" 
120 needle necktie machine; 1 3y 2 " 18S and 200 needle automatic ribber; 1 
3y 2 " 220 and 240 needle automatic ribber; 1 4y 2 " ISO needle automatic 
sleever; 1 4*/ 2 " 216 needle automatic ribber; 1 4*4" 272 needle automatic 
ribber; 1 13" 8 and 12-cut automatic rib-body machine; 1 18" 14-cut plain 
and 2-2 rib-body machine; 1 Ballard electric cloth cutter. 

Merrow Machine Co.: 1 60D overseaming machine; 1 60S hemming machine; 
1 60AD overedging machine; 1 60UD cloc stitch machine; 1 35FJ schell 
machine; 1 60Q schell machine; 1 60JDC overseaming machine. 

Metropolitan Sewing Machine Co.: 1 150CD lace neck machine; 1 50CH-10 
taper collarette machine; 1 30TC seaming machine; 1 251 cover-seaming 
machine; 1 192BX facing machine; 1 2SGC-1 stay machine; 1 192 W-5 
elastic machine. 

Singer Sewing Machine Co.: 1 44 lock stitch machine; 1 24 chain stitch machine; 
1 24-8 drawer finishing machine; 1 32-29 eyelet machine; 1 68-7 button sew- 
ing machine; 1 79-6 button hole machine; 1 79-1 tacking machine. 

Standard Sewing Machine Co.: 1 button hole machine. 

Union Special Sewing Machine Co.: 1 class 3,000 lace machine; 1 class 5.S00 
collarette machine; 1 class 16,100 facing machine; 1 class 6,000 chain stitch 
machine; 1 class 2,300 chain stitch machine with Dewee's trimmer; 1 class 
11,900 12-gauge cover seaming machine; 1 class 11,900 16-gauge cover seam- 
ing machine; 1 class 15,400 seaming machine; 1 grinder. 

Wilcox & Gibbs Sewing Machine Co.: 1 lock-stitch machine; 1 flatlock machine; 
3 over-lock machines; 1 feld-lock machine. 

Stafford & Holt: 1 14" 6-cut sweater machine. 

Tompkins Bros. Co.: 1 spring needle table, 22 gauge 20" and 36 gauge IS". 

United Shoe Machinery Co.: 1 metal eyelet machine. 

The Beattie Mfg. Co.: 1 16-point looper; 1 22-point looper. 

Grosser Knitting Machine Co.: 1 Koehler 20-point looper; 1 Koehler 24-point 

Southern Textile Machinery Co.: 1 Wright steady dial 22-point looper; 1 Wright 

steady dial 28-point looper. 
John W. Hepworth & Co.: 1 16-point C. R. D. looper. 
Saco-Lowell Shops: 1 24-end camless winder. 
W. D. Huse & Sons: 2 bottle bobbin winders. 
George W. Payne & Co.: 1 bottle bobbin winder. 
Universal Winding Co.: 1 No. 50 cone winder; 1 No. 90 cone winder; 1 No. 60 

Henry H. Skevington & Co.: 1 floating thread cutter. 
Excelsior Cloth Dryer: 1 Excelsior cloth dryer. 
Philadelphia Drying Machine Co.: 1 Hurricane steam press; 1 Hurricane hosiery 

and underwear dryer; 1 Electric hosiery dryer. 
Lewis Jones : 1 hosiery and underwear brushing machine. 
Paramount Hosiery Form Drying Co.: 1 set metal hosiery forms, men's, ladies' 

and children's. 
Joseph T. Pearson: 120 hosiery boards, men's, ladies' and children's. 
Stampagraph Co.: Dry transfers for hosiery. 
Harding Brook Co.: 1 Acme Hosiery Binder. 

Oswald Lever Co.: 1 18 end bobbin winder; 1 20 spindle quill winder. 
Atwood Machine Co.: 1 16 end bobbin winder. 
Kumagraph Co.: Dry transfers for hosiery. 
Allentown Bobbin Works: 500 Silk Bobbins. 


For some years the school manufactured its power and light, but owing to the 
growth of the school plant it became necessary either to make a large expenditure 
for a new power plant or to purchase power and light, and the latter plan was 
determined upon. 

The equipment in this department consists of 1 Cahall 60 H.P. vertical boiler; 
1 Stirling 105 H.P. water tubular boiler; 1 B. & W. 155 H.P. water tubular boiler; 
1 Deane 4 1 /2 // x 2%" x 4" duplex double outside packed plunger steam pump con- 
nected to a receiver tank; 1 Worthington 5%" x 2>y%' x 5" single steam pump; 1 
Riley 100 H.P. feed water heater; 1 Atwood and Morrill damper regulator; 1 
Sturtevant 75 H.P. horizontal center crank engine; 1 Westinghouse 50 K.W., 220 
volt, 3 phase, alternating current generator, direct connected; 1 Westinghouse 4 
K.W., 125 volt, direct current generator; 1 General Electric recording wattmeter; 

1 W. S. Hill 4 panel switchboard equipped with 9 Wagner indicating ammeters, 2 
Wagner indicating voltmeters, 1 Thomson 50 KW. 3 phase integrating wattmeter, 

2 direct reading K.W. meters, 14 Wagner current transformers, 1 Westinghouse 
combination rheostat, 1 General Electric combination rheostat, 2 Condit Electri- 
cal Manufacturing Company's 250 volt circuit breakers, all necessary switches, bus 
bars, etc.; 2 wing turbine fans for forced draft; 1 Cochrane oil separator; 1 Sturte- 
vant heating and ventilating outfit; 1 American Moistening Co.'s humidifying out- 
fit ; also 1 Parks-Cramer Company's, 1 Bahnson Company's and 1 American Port- 
able humidifying outfit; and 43 electric motors ranging from Yg H.P. to 15 H.P. 



March (Black Horse Troops) Sousa 

Olympia Studio Orchestra 
Prayer Rev. Henry J. Noon 

Opening Address Abbott P. Smith 

President of the Board of Trustees 
Address Hon. William S. Youngman 

Lieutenant Governor, Commonwealth of Massachusetts 
Selection (Au Matin) Olympia Studio Orchestra Godard 

Address and Presentation of The National Association of Cotton Manufacturers' 

Lincoln Baylies 
President, The National Association of Cotton Manufacturers 

Presentation of the William E. Hatch and the Peter Slater Medals 

George Walker, Trustee 

Selection (Spanish Dance) ' Moskowski 

Olympia Studio Orchestra 

Presentation of Diplomas and Certificates to Graduates of Day and Evening Classes 

Charles F. Prior 
Superintendent of Schools, Fairhaven, Mass. 

Presentation of Class Picture 

William Smith 
Principal of the School 

March (Salute to America) 

James H. Adams 


Olympia Studio Orchestra 

Day Classes — Diploma Courses 

General Cotton Manufacturing 

James Harold Adams 
Micizyslaw Peter Drozek 
Edward Sivrin Farrow 
Frank Pakula 


Clifford Brookes 

John Medeiros Ladino 
James Pilkington 

Americo Peitavino 
Clifton Slocum Pierce 
Daniel Francis Sullivan, Jr. 
Chao-Ming Yu 

Samuel Lassow 

Latch Needle Underwear Knitting 
Gregory Francis Meagher 

Chemistry, Dyeing and Finishing 

George Anthony Rawcliffe 
Oswald Partington Turner 
Adolphe John Twardowski 

Day Classes — Special Courses 


Three Years 

William Farr, Jr. 
John E. Foster 
Victor J. Bjorngren 

Samuel F. Winsper, Jr. 
Two and One-Half Years 

Two Years 

One and One-Half Years 

One Year 
Henry Czehowski 

Roger E. Turgeon 
Henry F. Stasiun 
Henri Martel 


Theses Presented 

Methods of Stripping Vat Colors John M. Ladino 

Combinations of Naphthol A S Colors with Other Fast Colors for the 

Production of Purples and Greens James Pilkington 

Naphthol A S Compounds as Developers for Azo Dyes George A. Rawcliffe 
Comparative Value of Certain Tests in Qualitative Analysis Oswald P. Turner 
A Comparison of the Dyeing Properties of Different Cuprammonium Rayons 


Evening Classes — Diploma Courses 

Weaving and Designing 
Ernest Carr Paul Kovar 

Chemistry and Dyeing 
Thomas Townson 

Evening Classes — Certificate Courses 

Seven Years 
John Crowther 

Six Years 

Joseph U. Darcy 
John Edmundson 

Five Years 
Auguste J. Escolas 
William H. Harrop 

Thomas Whittle 

Clifton M. Barton 
Joshua Hoyle, Jr. 
Stanislaw Kapinos 
Walter S. MacPhail, Jr. 

Francisco P. Almas 
Omer H. Antaya 
Robert Berwick 
Wm. Bottomley, Jr. 
Leo F. Carreau 
Alfred Crowther 
John P. Gonsalves 
Gedeas Grenier 
Raymond Hall 

Alfred Allard 
Antonio Andrade 
William Archer 
Stanley Baczek 
Earl R. W. Bates 
Francis Baxendale 
Robert Bland 
Frank C. Bobrowiecki 

Four Years 

William J. McGurk 
Honore Michaud, Jr. 
Emile Pellerin 
John C. Rogers 

Three Years 

Edwin R. Hathaway 
William T. Kaszynski 
Oliva M. Labrie 
Julian Laczenski 
Henry Landreville 
Conrad Levasseur 
Hector Loader 
Lucien H. Mitron 
John Mulvey 
Leon L. Ouimette 

Two Years 

Theresa Germaino 
Stanley G. Hancock 
Frederick J. Harrigan 
Thomas E. Hawes 
Alvin J. Hickok 
Agnes Howard 
Alphonse Jeannenot 
Leo F. John 

Ernesto Francisco 
Frank Trojan 

Henry Luckraft 
Charlie Mello 

Frederick Rollinson 
Gordon Smith 
William Turner 
Frankly n H. Weeks 

Joseph S. Peroni 
Felix W. Plouffe 
Joseph A. Plouffe 
Joseph Prusinski 
Ovila L. Therien 
Robert H. Warner 
John Whewell 
James W. Whitehead 
Samuel Woodruff 

Edward F. Riley 
Earl Rogerson 
August Rudler 
Adelard Russie 
George A. Selley, Jr. 
Eugene Sequer 
Mary Shelford 
Stanley Shorrock 

John Bobrowiecki 
Henry Buba 
Stanley Carbonneau 
William Carter 
Herbert Co'ckshoot 
Omer Cormier 
Walter F. Cygan 
Gaston J. Dalbec 
Remi Dalbec 
Omer J. Desjardines 
John T. Doyle 
Albert Dupre 
Joseph Enos 
Francis T. Fagan 
Adam Fluegel 
Raymond G. Furness 
Edgar Gabeil 
Robert W. Gardner 

Two Years (Continued) 

Andrew Korona 
Joseph Lapointe 
Tadeusz Lubera 
John Marsh 
George D. Martin 
Bertha Medeiros 
George E. Medeiros 
Thomas Mellor 
Stephen A. Mitzen 
Joaquim Morey 
Fred Nelson 
Elie Ogier 
William V. Oothout 
William Ormerod 
Jose L. Pereira 
Lillianne H. Poulin 
James Price 
Speros Rentzis 

Bert J. Silva 
Mario Silva 
Mary Smith 
John H. Stewardson 
James W. Stott 
George Tattersall 
Richard Taylor 
Joseph L. Tremblay 
George E. Vaughan 
Edward Waddington 
Albert Walker 
Joseph Walmsley 
Fred Watson 
John J. Watts 
Stanislaw Wojuszewski 
Harold Wood 
Norman Wrigley 


The following list has been corrected in accordance with information received 
previous to March 1st, 1930. Any information regarding incorrect or missing 
addresses is earnestly solicited. 

D indicates a diploma; C indicates a certificate (covering a partial course only) ; 
S indicates special course. 

Achom, Robert E., Jr., I, '15 (D). Assistant Designer, S. Slater & Sons, Inc., 

Webster, Mass, 
Adams, Elbert V., I, '22 (D). In Auto Tire Dept., Montgomery, Ward & Co., 

Chicago, 111. 
Adams, James H., I, '29 (D). Salesman, William B. Whidden & Co., 48 Chauncy 

St., Boston, Mass. 
Adelsohn, Arthur A., HI, '28 (D). With National Spun Silk Co., New Bedford, 

Albakri, Mathew S., I, '25 (C). In Knitting Mill, 239 East 2nd St., Frederick, 

Allan, William W., I, '15 (D). Superintendent, Grosvenor Dale Co., North 

Grosvenor Dale, Conn. 
Allen, Glawyer G., I, '25 (C). With Graniteville Mfg. Co., Graniteville, S. C. 
Amarantes, Jerry O., VI, '19 (C). Clerk, Amarantes' Garage, New Bedford, 

Ambler, Harry, III, '17 (D). With Cooper Kenworthy, Inc., Providence. R. I. 
Amona, Cheng Q., I, '17 (D). Engineer, Bureau for the Improvement of Cotton 

Industry, Ex-Austrian Concession, Tientsin, China. 
Anderson, Hilmer H., S, '22 (C). Superintendent, Brookdale Mills, Franklin, 

Armitage, Stanley W., I, '25 (D). Ass't. Supt. Selma Cotton Mills, Selma, N. C. 
Austin, Harold S., VI, '24 (C). Ass't. Routing Board Manager, Lewis Mfg. Co., 

Walpole, Mass. 
Babcock, Howard L., VI, '21 (C). With Durr Packing Company, Utica, N. Y. 
Baldwin, Fred L., S, '05 (C). With Sullowav Hosiery Mills. Franklin. N. H. 
Balloch, Roger T., IV, '21 (D). Stylist, Sulloway Hosierv Mills, Franklin, N. H. 
Barrett, Edward W., I, '21 (C). With Fairhaven Batterv Co., Fairhaven. Mass. 
Barrows, John T., Ill, '23 (C). Dentist, 96 Thompson St.. New Bedford, Mass. 
Barrows, Murray F., S, '05 (C). Ass't. Treasurer, Bristol Count v Mortage Co., 

New Bedford, Mass. 
Bates, Merton H., II, '20 (D). Painter, Osterville, Mass. 


Bearcovitch, Alfred J., I, '15 (D). Second Hand in Dye House, Imperial Print- 
ing & Finishing Co., Bellefonte, R. I. 

Beaumont, William, I, '25 (D). Ass't. Superintendent, Page Mill, New Bedford, 

Bentley, Milton J., I, '11 (D). With Whitin Machine Works, Whitinsville, Mass. 

Besse, Allen D., I, '22 (D). Assistant Designer, Wamsutta Mills, New Bedford, 

Besse, Edward L., Jr., I, '22 (D). Overseer, Worcester Tire Fabric Co., Worces- 
ter, Mass. 

Bessette, Leo A., I, '15 (D). Captain of Infantry, TJ. S. A. Army, Fort Meade, 

Bisbee, Robert T., I, '26 (C). Cashier, Carolina Industrial Bank, Biltmore, N. C. 

Bister, Frederick J., I, '09 (D). With John Bister, Cotton Umbrella Cloth, 
920 Broadway, New York City, N. Y. 

Biswas, Khitish C, I, '28 (D). Assistant to Prof. Schwarz, Massachusetts In- 
stitute of Technology, Boston, Mass. 

Bjorngren, Victor J., S, '29 (C). With Hathaway Machinery Co., New Bedford, 

Blair, William G., Jr., I, '08 (D). 

Blake, John J., I, '15 (D). 

Blake, Wendell C, I, '25 (D). Testing Dept., Firestone Tire & Rubber Co., 
Fall River, Mass. 

Blauvelt, John J., I, '22 (D). Assistant Superintendent, Belmont Silk Co., 
Kingston, Pa. 

Blossom, Carlton S., I, '16 (D). With S. Slater & Sons, Inc., Webster, Mass. 

Blossom, James W., I, '17 (D). With Blossom Bros., New Bedford, Mass. 

Boardman, Ellen G., VII, '26 (C). 

Boomer, Thomas M., Jr., I, '27 (D). With Firestone Tire & Rubber Co., New 
Bedford, Mass. 

Booth, William, VI, '08 (D). 

Borden, Eliot F., Ill, '28 (D). Assistant Chemist, Department of Health, State 
House, Boston, Mass. 

Bottomley, Fred S., '23 (C). New Bedford, Mass. 

Boutin, Leon A., IX, '28 (C). Machinist, South Middleboro, Mass. 

Boyd, W. MacPherson, I, '22 (D). Superintendent, Canadian Cottons, Ltd., 
Hamilton, Ontario, Canada. 

Braun, Leon A., I, '23 (D). Registered Druggist, Leominster, Mass. 

Brend, Albert, II, '15 (C). 

Brookes, Clifford, II, '29 (D). Designer, Page Mfg. Co., New Bedford, Mass. 

Brooks, Ruby E., II, '22 (C). Mrs. Bradford A. Luce, 60 Glenwood Ave., Jersey 
City, N. J. 

Brotherson, Curtis S., I, '28 (D). With Morse Twist Drill & Machine Co., New 
Bedford, Mass. 

Brown, James P., VI, '11 (C). Secretary, Glencairn Manufacturing Co., Paw- 
tucket, R. I. 

Brown, Walter A., I, '17 (C). Overseer of Spinning, S. Slater & Sons, Inc., ■ 
Webster, Mass. 

Brownell, Ulysses G., Jr., I, '21 (D). Secretary to Agent, Wamsutta Mills, New 
Bedford, Mass. 

Bruce, William, I, '27 (D). With Firestone Tire & Rubber Co., New Bedford, 

Bruneau, V. Herbert, I, '23 (D). Superintendent, Canadian Cottons, Ltd., 
Canada Mill, Cornwall, Ontario, Canada. 

Brunelle, Laurier O., I, '19 (D). In Office of City Treasurer, New Bedford, Mass. 

Brunette, Romeo, VI, '23 (C). Tester, The Fisk Rubber Co., Ninigret Division, 
New Bedford, Mass. 

Buckley, Charles E., II, '01 (D). Agent, Whitman Mills, New Bedford, Mass. 

Burt, Raymond A., Ill, '14 (D). Dyer, Hampton Mfg. Co., Easthampton, Mass. 

Burt, Stuart W., IV, '26 (C). Boss Dyer, Lehigh Silk Hosiery Mills, Philadel- 
phia, Pa. 

Cairns, James J., S, '19 (C). Designer, Hood Rubber Co., Watertown, Mass. 

Campbell, Malcolm E., I, '22 (D). Cotton Specialist, U. S. Dept. of Agriculture, 

( llemson College, S. C. 
Carlow, Charles L., II, '26 (D). Designer, Berkshire Cotton Mills, Adams, Mass. 

Carlson, Sigfred A., Ill, '26 (D). Chief Chemist, BostOTJ Elevated Rail 

Dept. of Power, 538 Harrison Ave, Boston, Mass. 
Carlson, Theodore E., I, '28 (D). Willi Clark Thread Company, Newark, X. J. 
Carvalho, Joao B. deM., I, '20 (D). 207 7 (le Setenilirc, Sal;i ], Sobrado, Rio d<- 

Janerio, Brazil, S. A. 

Cassidy, Elizabeth B., Ill, '22 (D). Sehool Teacher, 69 Tremont St., New Bed- 
ford, Mass. 

Cazenove, James O'H., I, '05 (D). 

Chan, Annie C, IV, '23 (C). The Foot Ease Hosiery Mfg. Co., 2612 E. Yuhang 
Road, Shanghai, China. 

Chang, Chih Y., I, '08 (D). 

Chang, Fa-Kien, I, '23 (C). Shantung, China. 

Chang, Mu W., S, '21 (C). 

Chase, Alton W., II, '09 (D). Overseer of Carding, Gosnold Mills Co., New 
Bedford, Mass. 

Chase, Raymond H., I, '10 (D). Superintendent, Potter Fine Spinners, Inc., 
Pawtucket, R. I. 

Checkman, Frank E., I, '23 (D). West Wareham, Mass. 

Chen, Ting F., I, '12 (D). 

Chesebro, Robert E., IV, '24 (C). Hand Knit Hosiery Co., Sheboygan, Wis. 

Chow, Frank L. H., S. '14 (C). Superintendent, Loo Fong Cotton Mills, Shan- 
tung, China. 

Church, Morton LeB., S, '04 (C). Southern Representative of Catlin & Co., 
1017 Commercial Bank Bldg., Charlotte, N. C. 

Clancy, Martin F., I, '25 (D). Comber Man, Queen City Cotton Mill, Burling- 
ton, Vt. 

Clark, Kenyon H., V, '11 (D). 

Clarke, Edward W., I, '13 (D). 

Coates, James E., Jr., I, '22 (D). Cost Department, Utica Steam & Mohawk 
Valley Cotton Mill, Utica, N. Y. 

Cody, Edmond, I, '23 (C). Third Hand in Card Room, Wamsutta Mills, New 
Bedford, Mass. 

Collins, Henry, I, '24 (D). With Collins Bros., Pawtucket, R. I. 

Cook, Seabury, S, '25 (C). Aviation School, California. 

Cookson, Albert, I, '23 (D). With Passaic Print Works, Passaic, N. J. 

Cooper, John J. W., I, '05 (D). With E. P. Sheldon & Sons, 1008-1010 Hospital 
Trust Bldg., Providence, R. I. 

Cornell, Harold C, I, '11 (D). Cotton Classer, Jenckes Spinning Co., Paw- 
tucket, R. I. 

Cornell, Maurice A., I, '21 (D). Master Mariner, South Dartmouth, Mass. 

Cornish, Ruth C, II, '22 (C). 

Corson, Sidney W., I, '05 (D). Overseer of Carding, Oneita Knitting Mills, 
Utica, N. Y. 

Crawford, Fred E., II, '22 (D). With Borne, Scrymser Co., Elizabeth Port, N. J. 

Crossley, Lawton, III, '16 (C). Chemist, Borne, Scrvmser Co., Elizabeth Port, 

Cumming, Robert W., Jr., II, '26 (C). Clerk, Hagden, Stane & Co., Newark, N. J. 

Currie, Andrew, Jr., I, '02 (D). Vice-President, Erie Oil Co., Inc., Shreveport, 

Curry, Walter F., Ill, '24 (D). With the Apponaug Co., Apponaug, R. I. 

Czehowski, Henry, S, '29 (C). 112 Countv Street, New Bedford, Mass. 

Dalrymple, George S., Ill, '22 (D). With National Spun Silk Co., New Bed- 
ford, Mass. 

Darling, Elton R., Ill, '13 (D). Professor of Chemistry, James Milliken Uni- 
versity, Decatur, 111. 

Davis, Albert H., I, '16 (C). Commission Merchant and Broker of cotton yarns 
and fabrics, 79 Verndale Ave., Providence, R. I. 

Davis, Francis J., I, '26 (D). In garage in Fitchburg, Mass. 

Davis, Russell O., VI, '27 (C). With S. Slater & Sons, Inc., Webster, Mass. 
Deane, Robert J., Ill, '17 (D). Assistant Chief Chemist, American Printing 

Company, Fall River, Mass. 
Delano, Lloyd S., I, '07 (D). Superintendent of Weaving, Warren Manufac- 
turing Co., Warren, R. I. 
Delay, John T., Ill, '17 (D). Chemist, Merrimac Chemical Company, North 

Woburn, Mass. 
DeMartin, Richard S., VI, '06 (D). Overseer of Carding, Warren Manufactur- 
ing Co., Warren, R. I. 
Deu, Yee B., I and IV, '08 (D). 
DeVine, Richard, I, '26 (D). In testing laboratory, U. S. Testing Co., 1415 Park 

Avenue, Hoboken, N. J. 
Devoll, Milton C, II, '09 (D). Cotton Salesman, 384 Acushnet Ave., New Bed- 
ford, Mass. 
Dewey, Edward W., V, '1 1 (D) . Superintendent and Buyer, Bennington Hosiery 

Company, Bennington, Vt. 
Dick, Rudolph C, I, '13 (D). With Barnes Textile Service, 101 Milk St., Room 

702, Boston, Mass. 
Dixon, Fred M., Jr., S, '17 (C). 
Doherty, Edward P., II, '04 (D). Doherty's Protective Agency, New Bedford, 

Dolan, Edward F., S, '14 (C). Proprietor of Ohio Threading and Supply Co., 

Burkburnett, Texas. 
Donaghy, Paul A., Ill, '22 (D). Salesman, Corn Products Refining Co., 47 Farns- 

worth St., Boston, Mass. 
Drozeh, M. Peter, I, '29 (D). With Devon Mill, New Bedford, Mass. 
Duckworth, George H., S, '23 (C). Federal Prohibition Agent, Baltimore, Md. 
Duflot, John, I, '24 (C). Ass't. Mgr., W. C. Jones, 19 Rue dAvesnes, Lille, 

(Nord) France. 
Duncan, Donald T., II, '21 (C). With H. R. Mallinson, 295 Fifth Avenue, New 

York City, N. Y. 
Dunmore, Earl W., V, '11 (D). Superintendent, Utica Knitting Company, 

Mill No. 2, Utica, N. Y. 
Dunn, Edward F., I, '24 (D). 951 South St., Roslindale, Mass. 
Dupont, Emey, Jr., I, '25 (D). Silk Weaver, Sadonia Silk Mills, Mystic, Conn. 
Edwards, Harold G., I, '19 (D). Treasurer, Bush & Company, New Bedford, 

Espriella, Antonio J. de la, II, '15 (D). Manager Weaving and Designing De- 
partment, Espriella & Co., Cartagena, Colombia, S. A. 
Espriella, Justo de la, S, '13 (C). Manager of Cotton Yarn Department, 

Espriella & Co., Cartagena, Colombia, S. A. 
Espriella, Luis C. de la, I, '16 (C). With Espriella & Co., Cartagena, Colombia, 

Ewing, James H., Ill, '23 (D). Assistant Chemist, Sales Laboratory, H. Kohn- 

stamm Co., 87 Park Place, New York City, N. Y. 
Fagan, Francis J., V, '12 (D). Foreman Underwear Department, Utica Knitting 

Company, Utica, N. Y. 
Farr, William, Jr., S, '29 (C). With Morse Twist Drill & Machine Co., New 

Bedford, Mass. 
Farrar, Hersey W., I, '17 (D). In Assembling Department, Morse Twist Drill & 

Machine Co., New Bedford, Mass. 
Farrow, Edward S., I, '29 (D). Post Graduate Course, New Bedford Textile 

School, New Bedford, Mass. 
Fawcett, John L., I, '28 (D). In Charge of all Sampling, Warwick Mills, West 

Warwick, R. I. 
Fead, Charles L., IV, '27 (C). Manufacturer of Heavy Wool Hosiery, John L. 

Fead & Sons, Port Huron, Michigan. 
Feen, Edward F., I, '21 (D). Erector, Whitin Machine Works, Whitinsville, 

Fessenden, Charles E., II, '14 (D). Salesman, Warlick Manufacturing Co., 

40 Worth St., New York City, N. Y. 


Few, George P., VI, '17 (C). Superintendent Profile Cotton Mills, Jacksonville, 

Finnell, Everett G., Ill, '24 (D). Chemist, National Spun Silk Co., New Bedford, 

Fish, Myron C, VI, '02 (D). Secretary, American Supply Company, and Treas- 
urer, Rhode Island Yarn Company, Providence, R. I. 

Flaherty, Matthew W., Ill, '22 (D). Clerk, Post Office, New Bedford, M,. 

Forbes, Esley H., I, '02 (D). 

Foster, Edward J., I, '24 (D). Designer, Oscar Hoffman Shirting Fabrics, 200 
Church St., New York City, N. Y. 

Foster, James E., S, '22 (C). Instructor, Junior High School, New Bedford, 

Foster, John E., S, '29 (C). Student, University of Vermont. 

Francis, George F., IV, '24 (C). Stationary Fireman, N. Y., N. H. & Hartford 
Railroad, New Bedford, Mass. 

Freeman, Elmer L., V, '06 (D). President and Manager, Freeman Manufac- 
turing Company, Detroit, Mich. 

Freeman, Leo, III, '20 (C). Chemical Engineer, Room 42 Reymond Bldg., Baton 
Rouge, La. 

French, Dean A., VI, '19 (C). Manager of Fabric Department, Miller Rubber 
Co., Akron, Ohio. 

French, Morton T., IV, '12 (D). With Scott & Williams, Inc., 366 Broadway, 
New York City, N. Y. 

Freschl, Max A., IV, '09 (D). Vice-President Holeproof Hosiery Company, 
Milwaukee, Wis. 

Fuller, Everett H., III. '17 (D). Dyer, Hampton Company, Easthampton, 


Gallagher, John V., IV, '08 (D). 

Gammons, Molly Nye, II, '18 (C). Mrs. Warren Tobey, Barrington, R. I. 

Gast, Paul R., Ill, '16 (C). Recipient Rockefeller Scholarship for Forestry 
study in Norway, Sweden and Germany. 

Gay, Paul F., I, '10 (D). With Fro-joy Ice Cream Co., New Bedford, Mass. 

Gifford, Thomas T., I, '01 (D). With Pierce Manufacturing Company, New 
Bedford, Mass. 

Gillingham, Dana H., Ill, '10 (D). Cotton Merchant, 91 Union St., New Bed- 
ford, Mass., and New England Sales Manager, Delaware Rayon Co. 

Gilmore, Daniel R., I, '22 (D). Tire Fabric Inspector, Firestone Tire & Rubber 
Co., Akron, Ohio. 

Goff, Russell E., VI, '15 (C). Cotton Broker, Boston, Mass. 

Goldberg, Bertram, IV, '13 (D). Treasurer, Bertram Goldberg, Inc., Silk Dyers, 
Johnstown, N. Y. 

Goodwin, Albert W., II, '11 (D). Manager Fancy Goods Department, Reeves 
Brothers, Inc., 55 Leonard St., New York City, N. Y. 

Gordon, Beime, Jr., I, '04 (D). Manager, Skenandoa Rayon Company, Utica, 

Gosselin, Henry J., S, '25 (C). Machinist, The New Departure Co., Bristol, 

Goulet, Henry J. O., I, '04 (D). 

Goward, Niles W., I, '15 (D). 

Grady, John H., Ill, '07 (D). Boss Dyer, Securitv Mills, Inc., Newton, Mass. 

Gray, Ralph B., Ill, '27 (C). With Better Fabrics Testing Bureau, 225 West 
34th St., New York City, N. Y. 

Green, Charles H., S, '22 (C). Jersey Shore, Pa. 

Greene, Dan E., S, '18 (C). Electrician, Woonsocket Rubber Company, Mill- 
ville, Mass. 

Grimshaw, Albert H., Ill, '16 (C). Associate Professor of Dveing, North Caro- 
lina State College, Raleigh, N. C. 

Haarla, Rauno A. V., I, '26 (D). Assistant Technical Director, Waasa, Puuvil- 
latehdas, Finland. 

Hadley, Wade H., VI, '00 (D). Secretary and Treasurer, Gregson & Dorsett, 
Siler City, N. C. 


Hahn, Louis H., II, '18 (D). Proprietor, Novelty Fabric Co., 1244 Acushnet 
Ave., New Bedford, Mass. 

Hale, Charles E., Jr., I, '22 (D). Costume and Scenery Designing, Ziegfeld 
Theatre, c/o "Show Boat" Co., New York City, N. Y. 

Hall, Lincoln, S, '14 (C). Head Bookkeeper, City Mfg. Co., New Bedford, Mass. 

Hall, Walton, Jr., VI, '06 (D). Judge of Probate, District of East Haddam, 
Moodus, Conn. 

Hamer, Allan K., S, '15 (C). Boston, Mass. 

Hamlen, Carleton LeB., Ill, '11 (D). With Hood Milk Co., Boston, Mass. 

Hamlen, Walter G., Jr., Ill, '17 (D). Demonstrating Salesman, E. I. Dupont 
de Nemours & Co., 128 So. Front St., Philadelphia, Pa. 

Hamrick, Lyman A., VI, '20 (C). Superintendent and General Manager, Mus- 
grove Mills, Gaffney, S. C. 

Hardy, Hudson E., I, '24 (D). Designer, Soule Mill, New Bedford, Mass. 

Harney, Joseph J., I, '22 (D). In charge of Fabric Department, Firestone Tire 
& Rubber Co., London, England. 

Harper, Powhatan F., VI, '23 (C). Foreman of Yard Force, Receiving and 
Shipping Clerk, Cotton Classer, Spray Cotton Mills, Spray, N. C. 

Haskins, Ernest T., IX, '27 (C). Chauffeur, 57 St. Germain Street, Boston, Mass. 

Hathaway, Ralph B., I, '26 (D). Assistant to Agent, Wauregan Mfg. Co., 
Wauregan, Conn. 

Hathaway, Russell, I, III, '16(D)(C). With Hathaway Laundry, New Bed- 
ford, Mass. 

Hawes, Lester E., II, VI, '02 (D). Chauffeur, New Bedford, Mass. 

Hayden, Paul A., I, '25 (D). Fabric Department, Firestone Tire & Rubber Co., 
Akron, Ohio. 

Hayward, Caleb A., Jr., V, '11 (D). Salesman, C. A. Hayward & Son, Confec- 
tionery Agents, Brokers and Jobbers, New Bedford, Mass. 

Hayward, Harold W., I, '16 (D). With D. E. H. Chemical Co., 277 Highland 
Ave., Somerville, Mass. 

Heap, Harold, II, '23 (C). Designer, Berkshire Cotton Mfg. Co., Adams, Mass. 

Heath, Roger A., Ill, '23 (D). Assistant Colorist, Passaic Print Works, Passaic, 

Hinckley, Frank E., Ill, '12 (D). Chief Pharmacist's Mate, United States Navy, 
c/o Bureau of Navigation, Washington, D. C. 

Hoffman, Frank A., VI, '24 (C). Designer, Gosnold Mills, New Bedford, Mass. 

Holland, Warren E., II, VI, '11 (D). Treasurer, Darlington Warehouse Com- 
pany, Darlington, R. I. 

Hollas, James B., I, '25 (D). With S. Slater & Sons, Inc., Webster, Mass. 

Holmes, Leander, I, '27 (C). Utility Man, Textile Developing Company, Bos- 
ton, Mass. 

Hood, John H., I, '25 (C). Assistant Treasurer, Bowling Green Spinning Mills, 
Blacksburg Spinning Mills, Globe Manufacturing Company, Clover, S. C. 

Horton, Harold W., I, '19 (D). Selling Agent, Woonsocket Machine & Press 
Co., Inc., Woonsocket, R. I. 

Horvik, Sigurd, IV, '22 (D). Superintendent, a/s Salhus Tricotage-fabrik, 
Salhus, near Bergen, Norway. 

Houth, Joseph, Jr., Ill, '24 (D). Chemist, Pontiac Bleachery, Pontiac, R. I. 

Howard, Arthur F., Jr., I, '25 (D). Efficiency Department, National Spun Silk 
Co., New Bedford, Mass. 

Howell, H. Comer, VI, '23 (C). With Bibb Mfg. Co., Macon, Ga. 

Howland, Ralph S., I, '13 (D). Purchasing Agent, Kendall Company, Walpole, 

Hsaio, Chen H., VI, '22, 1, '25 (C). Hunan First Cotton Mill, Changsha, Hunan, 

Hsu, Yeisham, I, '25 (D). 

Hung, Shao-Yu, III, '16 (C). 

Hunt, Russell W., Ill, '21 (C). Dyer, Franklin Process Co., Philadelphia, Pa. 

Hurley, James K., I, '24 (D). Designer, Hunter Mfg. Corp., New York City, 

Hutchinson, John J., I, '02 (D). Laundry Proprietor, Los Angeles, Cal. 

Ing, David P. E., Ill, '24 (D). With Shantung Silk & Lace Co., Ltd., Chefoo, 

Shantung, North China. 
Jackson, S. Eugene, VI, '07 (D). Assistant Treasurer, Crown Manufacturing 

Company, Pawtucket, R. I. 
Jay, A. Sidney, S, *21 (C). Assistant to the Agent, The W. A. Handley Mfg. Co., 

Roanoke, Ala. 
Jenks, Raymond M., I, '15 (D). Cost Clerk, West Boylston Manufacturing 

Company, Easthampton, Mass. 
Jenks, Robert R., VI, '11 (C). President Fales & Jenks Machine Company, and 

Treasurer Woonsocket Machine & Press Company, Woonsocket, R. I. 
Jennings, Everett C, III, '26 (D). With Franklin Process Co., Providence, R. I. 
Jennings, Harold W„ S, '21 (C). 55 Court Street, New Bedford, Mass. 
Jewell, Robert H., Ill, '20 (C). Treasurer, Crystal Springs Bleachery Com- 
pany, Chickamauga, Ga. 
Johnson, Horace E., Ill, '16 (C). Chemist, Bell Telephone Laboratories, 463 

West Street, New York City, N. Y. 
Jones, Louis, S, '23 (C). 35 Elm Street, New Bedford, Mass. 
Jourdain, Henry M., I, '18 (D). Letter Carrier, Post Office, New Bedford, Mass. 
Joy, Walter, III, '25 (C). With Cambridge Rubber Co., Cambridge, Mass. 
Judge, Edward E., I, '12 (D). Overseer, Gosnold Mills Company, New Bedford, 

Kagan, Peter M., VI, '24 (C). With Walter Simpson, Inc., 42 South Water St., 

Providence, R. I. 
Kallish, Frank, I, '11 (D). Designer, Utica Steam & Mohawk Valley Cotton 

Mill, Utica, N. Y. 
Kanter, Harry, I, '23 (D). Designer, Toepher & Myers, 4 and 6 White St., New 

York City, N. Y. 
Karl, William A., I, '19 (D). Purchasing Agent, Firestone Tire & Rubber Com- 
pany, Akron, Ohio. 
Kean, George P., II, '04 (D). Superintendent, Nyanza Mills, Woonsocket, R. I. 
Keebler, Walter F., IV, '26 (C). With Circle-Bar Hosiery Co., Owen Sound, 

Ontario, Canada. 
Kelty, Pharus T., I, '20 (C). Third Hand on Roving Frames, Page Mfg. Co., 

New Bedford, Mass. 
Ketcham, Melville K., S, '21 (C). General Manager, Wellington Sears Co., 

258 So. 18th St., Philadelphia, Pa. 
Kinney, C. Stanley, I, '15 (D). Manager, Troy Laundry Company, 183 Ex- 
change St., Pawtucket, R. I. 
Kirschbaum, Erwin P., Ill, '26 (C). With New Bedford Gas & Edison Light 

Co., New Bedford, Mass. 
Ko, Thomas S., S, '20 (C). Engineer, Textile Department, Anderson, Meyer & 

Co., Ltd., Shanghai, China. 
Kolodny, Meyer Z., S, '21 (C). Machine Fixer, Allen & Co., Black Cat Hosiery 

Mills, Kenosha, Wis. 
Kolodziey, Joseph, I, '24 (D). 149 Clara St., New Bedford, Mass. 
Kravetz, Joseph, VI, '25 (C). With Fix-Rite Shoe Stores, H. Kravetz & Son, 

343y 2 Cedar & 54 Mt. Vernon Sts., New Bedford, Mass. 
Kwan, Sze Keen, I, '24 (D). Representative of the Diamond Knitting Mill, Ltd., 

Shanghai, China. 
Kwok, Taai W., I, '26 (D). With Wing On Textile Mfg. Co., Nanking Road, 

Shanghai, China. 
Labrode, Henry C, I, '1 1 (D). Foreman Finishing Room and Overseer of Warp- 
ing Room, 90 Bayley St., Pawtucket, R. I. 
Ladino, John M., Ill, '29 (D). Chemist, Diamond Alkali Co., Fairport Harbor, 

LaFleur, John B. B., IV, '04 (C). Superintendent, Suffolk Knitting Company, 

East Boston, Mass. 
Lane, Daniel A., S, '23 (C). New Bedford, Mass. 
Lassow, Samuel, II, '29 (D). Textile Designer, Amoskeag Manufacturing Co., 

Manchester, N. H. 
Law, Kwok L., I, '24 (D). Hong Kong, China. 

Lee, J. K. Theodore, VI, '23 (C). Textile Department, Northeastern University, 

Mukden, China. 
Lee, Sik C, I, '25 (D). With Wing On Co., Ltd., Shanghai, China. 
Lee, Tung H., VI, '24 (C). Vocational School, Wuhu, China, or 29 S Sing Shung 

Li. DelaTour, Shanghai, China. 
Lee, William A., I, '07 (D). Clerk, Mills Manufacturing Company, Greenville, 

S. C. 
Lenhart, Edmund, III, '16 (C). Proprietor, Lenhart's Pharmacy, New Bedford, 

Levovsky, George A., Ill, '27 (D). New Bedford, Mass. 
Levy, Henry M., S, '21 (C). With the Everwear Hosiery Company, Milwaukee, 

Lewis, Don C. C, S, '17 (C). Automobile Salesman, Westport, Mass. 
Lewis, Maurice A., Ill, '13 (D). With Doe & Ingalls, 198 Milk St., Boston, Mass. 
Lewis, William C. T., I, '22 (D). Assistant Superintendent, Westport Manu- 
facturing Co., Westport Factory, Mass. 
Li Kung, I, '07 (D). Professor of the National Institute of Technology, Peking, 

Liebmann, Robert E., Jr., II, '25 (C). With A. Steinman Co., Inc., 114 Bleecker 

St., New York City, N. Y. 
Linderson, Carl A., I, '21 (D). Second Hand in Card Room, Devon Mills, New 

Bedford, Mass. 
Lipson, Edward, S, '21 (C). 
Livesey, Benjamin, Jr., Ill, '11 (D). 

Livingstone, Joseph A., S, '14 (C). Clerk, Wamsutta Mills, New Bedford, Mass. 
Lo, Ting Y., I, '07 (D). Dean and Professor of Textile Dept. of Technical Col- 
lege (Sect. I) of Peking University; Managing Director of Kai Yuen Woollen 

& Carpet Factory, Peking, China. 
Lobley, Fay G., I, '24 (D). Assistant Designer, Hathaway Mill, New Bedford, 

Lock, Robert F. K., I, '20 (D). Erecting Engineer, Wah Chang Trading Corp., 

(Sole Agents for Woonsocket Textile Machinery), P. 0. Box 1178, Shanghai, 

Lonergan, David J., II, '16 (C). With Federated Textiles, Inc., 30 Varick St., 

New York City, N. Y. 
Loring, Andrew C., I, '26 (D). With Devon Mills, Inc., New Bedford, Mass. 
Loud, Everett C., I, '27 (D). With Firestone Tire & Rubber Co., Akron, Ohio. 
Lowther, John M., I, '24 (D). Overseer in Carding Department, Queen City 

Cotton Mills, Burlington, Vt. 
Luce, Bradford A., I, '22 (D). In charge of Testing Department, Belding Hem- 

inway Company, Madison Ave. & 34th St., New York City, N. Y. 
MacColl, William B., II, '05 (D). Secretary and Treasurer, Lorraine Manu- 
facturing Co., Pawtucket, R. I. 
Macia, William F., I, '28 (D). With United States Testing Company, 316 Hudson 

St., New York City, N. Y. 
MacKenzie, John A., II, '07 (D). Wool Oil Salesman, American Oil Company, 

Providence, R. I. 
Macomber, Augustus C., I, '11 (D). Real Estate Agent, 74 State St., New Bed- 
ford, Mass. 
Macy, Andrew W., I, '07 (D). Superintendent, Nonquitt Mill, New Bedford, 

Macy, Edwin H., I, '23 (D). President, Macy Manufacturing Co., 95 Court St., 

New Bedford, Mass. 
Madero, Alberto, S, '02 (C). 
Mainville, Alfred J., II, '22 (D). Third Hand, New Bedford Spinning Company, 

New Bedford, Mass. 
Manning, Lewis G., V, '10 (D). Head of Knitting Department, New Bedford 

Textile School, New Bedford, Mass. 
Marriott, Frederick A., I, '26 (D). With Thermord Rubber Co., Trenton, N. J. 
Martel, Henri, S, '29 (C). Ave La Paz 699, Guadalajara, Mexico. 
Martins, Antonio R., S, '20 (C). New Bedford, Mass. 


Mason, Joseph E., II, '23 (C). 

Matthews, Irving F., I, '25 (C). Salesman, 227 Union St., Room 510, New Bed- 
ford, Mass. 

Maxfield, Linden H., I, '26 (D). With Lorraine Manufacturing Co., Pawtucket, 

McCann, William M., Ill, '26 (D). With S. Slater & Sons, Inc., Webster, Mass. 

McCraw, French Z., S, '26 (C). Foreman, Cloth Room, Vogue Mills, Gaffney, 
S C 

McDevitt, Francis O., I, '22 (C). 78 Orchard St., New Bedford, Mass. 

McDonald, Thomas J., Ill, '27 (D). With National Spun Silk Co., New Bed- 
ford, Mass. 

McEvoy, Leo A., S, '22 (C). With Knitted Padding Co., 105 Chapman St., 
Canton, Mass. 

McEvoy, Raymond R., I, '19 (C). Assistant Superintendent, The Knitted Pad- 
ding Co., Canton, Mass. 

McEwen, Ellsworth S., S, '18 (C). With Frear and Company, Bankers and 
Brokers, 43 Exchange Place, New York City, N. Y. 

McGinn, Walter E., Ill, '17 (D). With Foxboro Instrument Co., Foxboro, Mass. 

Mclsaacs, Harold J., Proprietor, United Perfumery Co., Purchase St., New Bed- 
ford, Mass. 

McKnight, John D., I, '22 (C). Converter, Nuess, Hesslein & Co., Inc., 53 White 
St., New York City, N. Y. 

McNeely, Thomas J., II, '01 (C). Manager Lawrence Cotton Mill, Durham, S. C. 

Meagher, Gregory F., V, '29 (D). 2 Norway Road, Milton, Mass. 

Mercer, George C., Jr., Ill, '22 (C). With Millbank Bleachery, Lodi, N. J. 

Miller, Wallace J., I, '22 (D). Cotton Classer, Crown Manufacturing Co., Paw- 
tucket, R. I. 

Mills, Clayton W., I, '26 (C). In Charge of Cotton Winding & Twisting, Rayon 
Winding, Twisting & Skeining, Newmarket Manufacturing Company, New- 
market, N. H. 

Mills, Otis P., Jr., I, '05 (D). Automobile Distributor and Real Estate, Augusta 
St., Greenville, S. C. 

Molins, Andres, II, '28 (C). Designer, 1 Calle Poniente No. 41, San Salvador, 
Central America. 

Moore, Carroll C, I, '27 (D). With Potomska Mills, New Bedford, Mass. 

Moore, Stephen R., II, '13 (D). Assistant Instructor in Weaving, New Bedford 
Textile School, New Bedford, Mass. 

Moore, William H., S, '22 (C). Twister Section Hand, A. P. Smyre Mfg. Co., 
Gastonia, N. C. 

Morris, Theodore P., VI, '19 (C). Superintendent, Ridge Mills, Inc., Gastonia, 

Morrison, Julian K., VI, '20 (C). President, Brighton Mills, Passaic, N. J. 

Morse, Alice L., II, '22 (C). Assistant Designer, Page Mill, New Bedford, Mass. 

Morton, Walter E., VI, '23 (C). Cotton Classer and Overseer of Carding, 
Lafayette Cotton Mills, Inc., Lafayette, Ala. 

Moss, Milo L., VI, '01 (D). New Bedford, Mass. 

Mullarkey, Joseph F., Jr., I, '26 (D). Color Mixer, National Spun Silk Co., New 
Bedford, Mass. 

Mung, Theodore C, S, VI, '22 (C). 

Murphy, Edward L., Jr., IV, '26 (C). With Contoocook Mills Corp., Hillsboro, 

Myers, Frederick H., Ill, '26 (D). With Windsor Print Works, No. Adams, 

Nash, Howard P., Jr., Ill, '25 (C). Chicago, 111. 

Neel, Albert G., V, '09 (D). Superintendent, Earnshaw Knitting Co., Newton, 

Nelme, Bennett D., II, '03 (D). Lumber and Farming, Wadesboro, North Caro- 
lina, Rt. No. 2. 

Nelson, James A., II, '22 (C). With Wabasso Cotton Co., Trois Rivieres, Que- 
bec, Canada. 

Nichols, Henry W., II, '00 (D). Principal, Bradford Durfee Textile School, Fall 
River, Mass. 


Norris, Thomas L., Ill, '28 (D). With New Bedford Rayon Co., New Bedford, 

Northrop, William F., I, '16 (C). Salesman, Hopedale Manufacturing Com- 
pany, Milford, Mass. 

Novick, Joseph B., Ill, '25 (D). New Bedford, Mass. 

O'Brien, John N., Jr., S, '21 (C). Automobile Painter, New Bedford, Mass. 

O'Brien, Thomas B., VI, '11 (C). O'Brien Padawer, Inc., Cotton Waste and 
Linters, 202 W. 40th St., New York City, N. Y. 

O'Brien, William L., S, '15 (C). Automobile Dealer, New Bedford, Mass. 

O'Donnell, Thomas J., I, '26 (D). With Firestone Tire & Rubber Co., Akron, 

Ogden, William H., III, '18 (D). Chief Chemist, Jennings & Co., 93 Broad St., 
Boston, Mass. 

O'Neil, John J., V, '06 (D). Optician, 389 Main St., Springfield, Mass. 

Orr, Charles F., Jr., I, '25 (C). Jewelry Salesman, Wisconsin. 

Osborn, John W., I, '02 (D). 

Oscar, Jack P., S, '25 (C). 42 County St., New Bedford, Mass. 

Paine, Howard N., S, '21 (C). Mason, 33 High School Road, Hyannis, Mass. 

Pakula, Frank, I, '29 (D). With Amoskeag Manufacturing Co., Manchester, 
N. H. 

Pallatroni, Paul J., I, '25 (D). With Kilburn Mill, New Bedford, Mass. 

Palmer, Myrtland F., I, '13 (D). With Wellington, Sears & Co., 65 Worth St., 
New York City, N. Y. 

Pan, Chen C, III, '16 (C). 

Papademetrius, Demetrius, S, '21 (C). Textile Designer, Hathaway Mfg. Co., 
New Bedford, Mass. 

Papageorge, George, IV, '23 (D). Weaver, New Bedford, Mass. 

Papkin, Nathan, IV, '26 (D). Lodi, New Jersey. 

Paradis, Joseph L., Ill, '25 (D). Industrial Engineer, Equitable Gas Co. of Pitts- 
burgh, Pittsburgh, Pa. 

Patt, Lester D., II, '08 (D). Claim Agent, United States Finishing Company, 
40 Worth St., New York City, N. Y. 

Pease, Bryden, S, '14 (C). With Hazlip, Hood Cotton Company, Greenville, 

Peavey, Robert F., IX, '28 (C). New Bedford, Mass. 

Peitavino, Americo, I, '29 (D). With Devon Mill, New Bedford, Mass. 

Perez, Alfonso, S, '23 (C). Owner and Manager, St. Pedro Cotton Mill, Quito, 
Ecuador, S. A. 

Perry, Allan M., I, '25 (D). Cloth Salesman, Renfrew Mfg. Co., Adams, Mass. 

Peterson, Henry F., Ill, '22 (D). With Amoskeag Mfg. Co., Manchester, N. H. 

Pickard, Walter D., I, '17 (D). 

Pien, Ting K., I, '22 (C). 

Pieraccini, Frank, Jr., II, '07 (D). Superintendent, Tire Fabric Corp., Salmon 
Falls, N. H. 

Pierce, Clifton S., I, '29 (D). With Abraham & Straus, Inc., Brooklyn, N. Y. 

Pilkington, James, III, '29 (D). With National Association Institute of Dyeing 
and Cleaning, Inc., Silver Springs, Md. 

Pinault, Robert W., Ill, '24 (D). Textile Chemist, Research Staff, E. F. Hough- 
ton & Co., Philadelphia, Pa. 

Pittle, Charles, IV, '09 (D). Importer, 1817 Acushnet Ave., (Chas. Pittle & Co.) , 
New Bedford, Mass. 

Potter, Benjamin R., II, '28 (D). Designer, Gosnold Mills, New Bedford, Mass. 

Pressman, Jacob L., I, '24 (D). 

Quinn, Francis J., IX, '27 (C). In Patents and Experimental Dept., Royal Type- 
writer Co., 316 Broadway, New York City, N. Y. 

Radway, Charles A., Ill, '28 (D). 103 Commonwealth Ave., Chestnut Hill, 

Ragan, Caldwell, VI, '19 (C). Secretary and Assistant Treasurer, Ragan Spin- 
ning Company, Gastonia, N. C. 

Ramos, Edwin C, III, '25 (D). Student, New Bedford, Mass. 

Ramsbottom, Archie, IV, '24 (D). 





Rankin, William T., VI, '19 (C). ( lastonia, N. C. 

Rawcliffe, George A., Ill, '29 (D). Cost Man, Swansea Prinl Works, Swansea, 

Reed, Francis P., Ill, '21 (D). Wareham, Miss. 
Regan, Carlton E., Ill, '28 (C). New Bedford, MaSS. 

Remington, Allen K., I, '20 (D). With J. & P. Coats (R. I.) Inc., Pawf U< kct, R. I. 
Richards, Benjamin, VI, '02 (D). Manager, Underwriters' Service Association, 

175 West Jackson Blvd., Chicago, 111. 
Richardson, Malcolm H., I, '26 (D). With Firestone Tire & Rubber Company, 

Akron, Ohio. 
Riding, Richard, S, '01 (C). 

Rigby, Christopher E., Jr., I, '23 (C). With Dupont Rayon Co., Richmond, Va. 
Rigby, James H., VI, '25 (D). Salesman, Dupont Rayon Co., Providence, R. I. 
Riley, George V., Ill, '16 (C). 

Rivero, Ricardo J., VI, '04 (D). Monterey, Mexico. 
Robbins, Lloyd B., Ill, '20 (D). Onset, Mass. 

Robenolt, Edward A., II, '11 (D). 23 Sycamore St., New Bedford, Mass. 
Robinson, Arthur J., Ill, '17 (D). Steamship Pilot, N. B., M. V. & N. S. B. Co., 

New Bedford, Mass. 
Robinson, Chester A., I, '22 (D). Teacher, Sagamore, Mass. 
Robinson, Joseph L., S, '23 (C). Machinist, Continental Wood Screw Co., New 

Bedford, Mass. 
Robinson, Raymond W., I, '26 (D). Attleboro, Mass. 
Rodalewicz, Henry F., IX, '28 (C). Die Maker. John I. Paulding, Inc., New 

Bedford, Mass. 
Ronne, Arthur H., I, '17 (D). Styling and Designing on Shirtings, McCampbell 

& Co., 320 Broadway, New York City, N. Y. 
Rooney, Harold E., I, '26 (D). Foreman, Berkshire Manufacturing Company, 

Depot St., Adams, Mass. 
Ross, Edwin J., I, '23 (D). Head of Silk Testing Laboratory, Kahn and Feld- 

man, Inc., 40 E. 29th St., New York City, N. Y. 
Rowan, Peyton, VI, '20 (C). Cotton Buyer, J. G. Boswell, 524 Roberts Building, 

Los Angeles, Cal. 
Royster, David W., IV, '16 (C). Manager Royster Oil Co., Inc., Shelby, N. C. 
Rubin, Juan D., I, '24 (D). Textile Engineer, Parks-Cramer Co., Fitchburg, 

Mass. (Territory for Supervision Mexico and South America). 
Rubinstein, Isaac, III, '27 (D). 34 West 89th St., New York City, N. Y. 
Ruggles, John W., I, '20 (D). Owner and Manager of Yarn Dept., N. E. Nicker- 

son & Co., New Bedford, Mass. 
Salter, Milton B., Ill, '19 (C). 

Salvati, Salvato, I, '20 (D). With Milan Silk Co., New Bedford, Mass. 
Sayers, William J., I, '23 (D), III, '25 (D). With Apponaug Co., Apponaug, R. I. 
Scharf, Elmer, III, '22 (D). Chemist and Dyer, Holeproof Hosiery Company, 

Milwaukee, Wisconsin. 
Scheid, Alfred, VI, '11 (C). Bond Salesman, Clarence Hodson & Co., New York 

City, N. Y. (Clinton, Mass.) 
Schiller, Wesley L., I, '23 (D). Assistant to Superintendent, Lebanon Mill Co., 

Pawtucket, R. I. 
Schofield, George L., Ill, '28 (D). Student, North Carolina State College, 

Raleigh, N. C. 
Scholze, Ernest A., II, '12 (D). With Lorraine Mfg. Co., Pawtucket, R. I. 
Schoop, Hans, S, '22 (C). 35 Hadlandstrasse, Zurich 6, Switzerland. 
Schulman, Otto, II, '26 (C). 12 Lantinen Puisto Katu, Tammerfors, Finland. 
Searell, George W., Ill, '22 (D). With Kahn and Feldman, Inc., 360 Suvdam 

St., Brooklvn, N. Y. 
Searls, Albion k., I, '27 (C). 7 B St., Adams, Mass. 
Service, Louis B., S, '20 (C). Plant Manager, The Gardiner Hall Jr. Co., South 

Willington, Conn. 
Shanks, James, Jr., Ill, '19 (D). With Joseph Morninsstar & Co., Inc., 650 West 

34th St., New York City, N. Y. 
Shill, Alexander, I, '15 (D). 


Silva, Americo O., I, '24 (D). Chicago, 111. 

Simmons, Charles G., S, '22 (C). Consulting Engineer, Serguson and Company, 

200 Fifth Ave., New York City, N. Y. 
Singer, Meyer K., I, '21 (D). With John Campbell Co., Newark, N. J. 
Siu, Poy N., I, '23 (C). 5 Lower Castle Road, Hong Kong, China. 
Smith, Carlton W., HI, '11 (D). Clerk, Drift Road, South Westport, Mass. 
Smith, James C, VI, '23 (C). 
Snedden, George A., VI, '20 (C). Cotton Salesman, William Almy & Co., New 

Bedford, Mass. 
Snell, Elliott A., I, '27 (C). In testing laboratory, U. S. Testing Co., 316 Hudson 

St., New York City, N. Y. 
Snyder, Arthur E., V, '09 (D). President Berkshire Moccasin Co., Holliston, 

Mass., and Worsted Yarn Salesman, Percy A. Legge, 185 Summer St., Boston, 

Soler, Julius A., I, '28 (D). Sub-Director of Carding and Spinning, Fabrica de 

Rio Blanco, Rio Blanco, Ver, Republica Mexicana. 
Sotnick, George, IV, '22 (D). Machinery Fixer, Pawtucket Hosiery Company, 

Pawtucket, R. I. 
Spare, Arthur F., I, '09 (D). With J. V. Spare & Co., New Bedford, Mass. 
Spencer, William A., VI, '04 (D). Superintendent, Trainer Mills of Martel 

Mills, Inc., Chester, Pa. 
Stasiun, Henry F., S, '29 (C). New Bedford, Mass. 
Stubbs, Guy P., '01 (C). Manager of an estate, Monroe, La. 
Sturtevant, Harold B., HI, '15 (D). Assistant Superintendent, Bellman Brook 

Bleachery Co., Fairview, N. J. 
Sullivan, Charles J., HI, '28 (D). With Pacific Mills, Lawrence, Mass. 
Sullivan, Daniel F., Jr., I, '29 (D). New Bedford, Mass. 
Sun, Chiating, I, '25 (D). 14 Hsia Chia Square, Sianfu, Shensi, China. 
Sweeney, Eugene F., I, '22 (D). Head of Quality and Production in Fall River 

and New Bedford, Firestone Tire & Rubber Co., Mass. 
Swenson, Hilary S., HI, '19 (C). Chemist, Morse Twist Drill & Machine Co., 

New Bedford, Mass. 
Sylvester, Burton C, HI, '18 (D). Division Superintendent, U. S. Finishing Co., 

Pawtucket, R. I. 
Taylor, Charles K., VI, '04 (D). Textile Manufacturing, Magnolia, Miss. 
Taylor, Fred, I, '04 (D). Superintendent, Firestone Cotton Mills, Fall River, 

Terry, Clifford B., VI, '04 (D). Salesman, Foster Machine Co., Westfield, Mass. 
Thayer, Edward A., S, '14 (C). Processing Rayon, Pawtucket, R. I. 
Thayer, Ellis H., V, '07 (D). 
Thornley, Clifton L., I, '22 (D). Shoe Retailer, Walk-Over Shoe Store, 342 

Westminster St., Providence, R. I. 
Tom, George K. Y., I, '25 (D). 

Tourtellot, Pierce D., VI, '13 (C). With Nashawena Mill B, New Bedford, Mass. 
Tripp, Clifford H., I, '05 (D). Inspector of Textiles, Q. M. C, Boston General 

Intermediate Depot, Boston, Mass. 
Tripp, Francis, HI, '28 (D). Student, North Carolina State College, Raleigh, 

Tripp, Fred R., Ill, '28 (D). Student, North Carolina State College, Raleigh, 

Tripp, Kenneth S., IX, '28 (C). With National Spun Silk Co., New Bedford, 

Trott, George R., I, '24 (C). Clerk, J. & P. Coats (R. I.) Inc., Pawtucket, R. I. 
Truesdale, William P., Ill, '24 (D). U. S. Finishing Co., Providence, R. I., Sil- 
ver Springs Branch. 
Tsang, Yiu S., I, '07 (D). 
Tsao, Walter Chih C, I, '25 (D). 
Tsu, Chee L., I, '08 (D). 
Tu, Chung T., I, '22 (D). 
Turgeon, Roger E., S, '29 (C). With New Bedford Rayon Co., New Bedford, 



Tumbull, Walter, I, '03 (D). General Agent, Life Insurance Company of Vir- 
ginia, Lawrenceville, Va. . 

Turner, Gordon R., I, '28 (D). In testing laboratory, United States Testing Co., 
316 Hudson St., New York City, N. Y. 

Turner, James H., 3rd, III, '22 (D). Chemist, Chemical Co. of America, 46 Mur- 
ray St., New York City, N. Y. 

Turner, Oswald P., Ill, '29 (D). With Willimantic Thread Co., Wilhmantic, 

Twardowski, Adolphe J., Ill, '29 (D). With Amoskeag Manufacturing Com- 
pany, Manchester, N. H. 

Urquhart, George C., Ill, '09 (D). Shanghai, China, representative of a Boston 
dye Manufacturing Company. 

Van Dyk, Francis R., II, '21 (C). Vice-President, James Van Dyk Company, 
50 Barclay St., New York City, N. Y. 

Vera, Frederick J., I, '07 (D). 

Vieira, Nicholas R., Ill, '18 (D). With Newport Chemical Works, Passaic, N. J. 

Visbal, Luis C, IV, '12 (D). Manager Knitting Department, Espriella & Co., 
Cartagena, Colombia, S. A. 

Waldstein, Benjamin, I, '15 (D). Salesman, S. H. Waldstein, 10 High St., 
Boston, Mass. 

Walker, Stuart B., I, '26 (D). Textile Testing and Analyzing, U. S. Testing Co., 
316 Hudson St., New York City, N. Y. 

Wallner, Siegfried, IV, '19 (C). Wallner-Haynes Realty Co., Miami, Fla. 

Wallner, Waldemar, IV, '23 (C). Superintendent, Paul Knitting Mills, Inc., 
Radford, Va. 

Walne, James A., I, '26 (D). Designer, Taylor Clapp & Beall, 109 Worth St., 
New York City, N. Y. 

Walters, Harold J., IV, '07 (D). Assistant Superintendent, Thomas Develon, Jr., 
A Street and Indiana Ave., Philadelphia, Pa. 

Wareing, Eli W. T., Ill, '27 (D). With United Merchants and Manufacturers, 

Waring, Edmund A., Ill, '28 (D). With National Spun Silk Co., New Bedford, 

Waring, Joseph A., Jr., Ill, '25 (D). With Dupont Rayon Co., Buffalo, N. Y. 
Waring, Leo J., Ill, '25 (D). With S. Slater & Sons, Inc., Webster, Mass. 
Watson, James, Jr., Ill, '22 (D). Marion, Mass. 
Watkins, Charles F., Jr., Ill, '21 (D). Superintendent of Silks, Apponaug Co., 

Apponaug, R. I. 
Waxier, Jacob H., I, '21 (D). Insurance and Real Estate, New Bedford, Mass. 
Weller, George W., Jr., S, '18 (C). Comberman, Ponemah Mills, Taftville, 

Wentworth, Howland, VI, '15 (C). New Bedford, Mass. 
Wheeler, William J., S, '22 (C). Salesman, Tide Water Oil Sales Corp., East 

Providence, R. I. 
White, Clifford L., II, '09 (D). Cotton Classer, Fisk Rubber Co., Ninigret Di- 
vision, Pawtucket, R. I. 
White, Elliott H., Ill, '26 (D). With City Dye Works, Springfield, Mass. 
Whitehead, George E., I, '23 (D). New Bedford, Mass. 
Whitlow, Samuel A., Jr., Ill, '22 (D). Electrical Engineering, New York Edison 

Company, 130 East 15th St., New York City, N. Y. 
Whitman, L. Clay, II, '22 (D). Washington, R. I. 

Whitney, Howard B., I, '16 (D). George L. Whitney "Market, Pawtucket, R. I. 
Wilcox, Roger M. H., S, '10 (C). Special Agent, Union Mutual Life Insurance 

Company, 30 State St., Boston, Mass. 
Willey, Eugene L., I, '24 (D). In Spinning Department, Harmony Mills, Cohoes, 

N. Y. 
Williamson, Thomas G., VI, '00 (D). With Frigidaire Corp., 280 Union St., 

New Bedford, Mass. 
Winnell, Lloyd H., Ill, '20 (D). With National Aniline & Chemical Company, 

40 Rector St., New York City, N. Y. 
Winsper, Samuel F., Jr., S, '29 (C). With Soule Mill, New Bedford, Mass. 

Witherbee, Rex G., I, '05 (D). Plant Engineer, Utica Steam & Mohawk Valley 

Cotton Mills, Utica, N. Y. 
Wong, Fook W., I, '18 (D). Director of the Bureau of Mining Affairs of Wai- 

Chow, Wai-Chow-Fu, Kwongtung, 7 Man Tak Road West, Canton City, 

Canton, China. 
Wong, James H. Y., I, '25 (D). Sales Manager and Superintendent, A. B. C. 

Underwear Mill, Office at 193A Nanking Road, Factory at 231 Connaught 

Road, Shanghai, China. 
Wong, Ka L., I, '07 (D). Instructor, Peking Technical College, Peking, China. 
Wong, Thomas G., I, '15 (D). General Manager, China A. B. C. Underwear 

Mill and Superintendent, Tung Yih Cotton Mill, Shanghai, China. 
Wood, Theodore, I, '03 (D). Wood, Vanderpyle Co., Inc., 52 Vanderbilt Avenue, 

New York City, N. Y. 
Woodward, Chester M., I, '24 (D). Designer, Harmony Mills, Cohoes, N. Y. 
Worden, George, II, '07 (D). Overseer of Weaving, Flint Mills, Fall River, Mass. 
Ybarra, Andrew C., VI, '04 (D). 
Yen, Yuan S., I, '20 (D). c/o Dah Sun Cotton Mill, Nantung Chow, Kiangsu, 

Young, Frederick J., VI, '04 (D). Manager, Bemis Cotton MiU, Bemis, Tenn. 
Young, James D., I, '26 (D). 

Young, Jun L., I, '25 (D). 233 N. Kuakini St., Honolulu, Hawaii. 
Young, Thomas, II, '21 (C). Designer, Potomska Mills, New Bedford, Mass. 
Young, Tsun S., I, '17 (D). Engineer, Dah Foong Cotton Spinning and Weaving 

Mill, Shanghai, China. 
Young, Yolay, I, '21 (C). Shanghai, China. 
Yu, Chao-Ming, I, '29 (D). Post Graduate Course, New Bedford Textile School, 

New Bedford, Mass. 
Yu, Victor H., I, '20 (D). Director of the Dah Lung Cotton Mills, Changchow, 

China, and with the Wei Kee & Co., 455 Tientsin Road, Shanghai, China. 
Yuan, Harold H. H., I, '23 (C). General Manager, Hua Kuang Trading Corp., 

173A Tunbridge Road, Tientsin, China. 
Zung, King K., HI, '20 (C). 


Acomb, William, II, '07. Head of Weaving Department, New Bedford Textile 

School, New Bedford, Mass. 
Baldwin, John M., HI, '14. 48 Shawmut Avenue, New Bedford, Mass. 
Bavoux, Roger E., II, '27. Changer, New Bedford Spinning Co., New Bedford, 

Bolton, James, VI, '17. Superintendent, Gosnold Mills Co., New Bedford, Mass. 
Bolton, Wright, Jr., Ill, '14. Superintendent, Androscoggin Mills, Lewiston, 

Bowen, Evan A., VI, '21. Holmes Manufacturing Co., New Bedford, Mass. 
Burton, James L., II, '22. With Nashawena Mills, New Bedford, Mass. 
Carr, Ernest, II, '29. Designer, Whitman Mill No. 2, New Bedford, Mass. 
Carse, Henry G., VI, '21. Overseer of Silk Department, Gosnold Mills Co., New 

Bedford, Mass. 
Day, Andrew F., VI, '19. Insurance Agent, 96 William St., New Bedford, Mass. 
Driesen, Frank, VI, '26. Second Hand, Nashawena Mills, New Bedford, Mass. 
Dumas, Leon F., II, '24. Second Hand, Soule Mills, New Bedford, Mass. 
Flanders, Kenneth A., VI, '20. 

Green, Jim, II, '06. Farmer, R. F. D. No. 4, Box 75, So. Dartmouth, Mass. 
Gurney, Preston S., VI, '19. Overseer of Carding, Hoosac Cotton Corp., North 

Adams, Mass. 
Hagen, John F., VI & II, '16. Manager, Executive Offices, Cotton Mill Division, 

Standard Textile Products Company, 320 Broadway, New York City, N. Y. 
Hammond, Amos E., I, '04. 

Holden, Frank, VI, '18. Head of Carding and Spinning Department, New Bed- 
ford Textile School, New Bedford, Mass. 


New Bedford, Mass. 


I hereby make application for admission to the day classes of the New 
Bedford Textile School. 

Date 193.. 

Name in full 

Age last birthday 

Home residence 

Name of parent or guardian 

Name of school last graduated from 

If not a graduate, school last attended 

State in what way you first learned of the school 

Mark X Against Course Desired 

General Cotton Manufacturing Course 

Designing Course 

Chemistry and Dyeing Course 

Carding and Spinning Course 

Circular Hosiery Knitting Course 

Latch Needle Underwear Knitting Course 

Special Course in 

The above application should be filled out and mailed or delivered to 

New Bedford, Mass.