Module Handbook for DUREM JURAM/Master TC... · 2020. 1. 15. · COURSES FOR MASTER DEGREE PROGRAM...

MONGOLIA

Mongolian University of Science and Technology

School for Industrial Technology

Module Handbook for

Master program of “Textile Chemistry”

APPROVED BY. PRESIDENT MONGOLIAN UNIVERSITY OF

SCIENCE AND TECHNOLOGY B.OCHIRBAT

MONGOLIAN UNIVERSITY OF SCIENCE AND TECHNOLOGY

SCHOOL OF INDUSTRIAL TECHNOLOGY TEXTILE CHEMICAL

TECHNOLOGY

CURRICULUM FOR RESEARCH MASTER DEGREE

Professional index: E07230104

Degree for the professionals: Master

Educational level of the entering students: Bachelor

Study type: Day study

Study time: 1.5-2.0 years

COURSE

CODE COURSE NAME CREDITS

PRE-

REQUISITE TERMS

BASIC COURSES OF PROFESSIONAL: EDUCATION: M10

A. Methodology of research: M4

S.CS 710 Modeling of Engineering 2 RANDOM

S.IP 710 Patent Study 1 RANDOM

S.PS 710 Methodology of Research and Study 1 RANDOM

B. Basic theoretical courses: M6

I.ST 701 Research Methodology for Experimental process 3

I.TC 711 Research Seminar I 1 RANDOM

I.TC 712 Research Seminar II 1 RANDOM

I.TC 713 Research Seminar III 1 RANDOM

PROFESSIONAL TRAINING COURSES: M15

A. Core subjects : M6

I.TC 702 Finishing Technology for Textile Materials II 3 RANDOM

I.TC 703 Advanced Technology and Trands for Textile Materials 3 RANDOM

B. Elective subjects : M9

I.BT702 Material Science and Engineering I 3 RANDOM

I.BT703 Re-engineering for Business Processing 3 RANDOM

I.TC704 Chemical Technology of Protein Fibers II 3 RANDOM

I.TC705 Equipment and Usage for Processing of Textile

Industry 3

RANDOM

I.TC706 Structure and Properties of Surface Active Substance 3 RANDOM

I.TI705 Usage of Computer in Textile Industy II 3 RANDOM

I.TI715 Knitting Structure and Design II 3 RANDOM

I.TI746 Quality Control and Certification II 3

EXPERIENCE AND RESEARCH WORK: M4

S.FL711 Integrated Examination of Foreign Languages 1 RANDOM

I.TS780 Research Seminar 3 RANDOM

GRADUATION PROJECT FOR MASTER DEGREE: M5

I.TS790 Master Thesis 5 RANDOM

MASTER DEGREE:

BASIC COURSES OF PROFESSIONAL

EDUCATION:

10

PROFESSIONAL TRAINING COURSES: 15

EXPERIENCE AND RESEARCH WORK: 4

GRADUATION PROJECT FOR MASTER

DEGREE:

5

TOTAL CREDITS: 34

HEAD OF DEPARTMENT D.BATBAYAR

COURSES FOR MASTER DEGREE PROGRAM IN

“TEXTILE CHEMICAL TECHNOLOGY”

№

Module

Code

Module Name Credits Prerequisite

Professional General Courses – Compulsory Modules 10 credits

1 S.CS710 Modeling of Engineering 2 S.МT102

2 S.IP710 Patent Study 1

3 S.PS710 Methodology of Research and Study 1 G.TS300

4 I.ST701 Research Methodology for Experimental Process 3 G.TS300

5 I.TC711 Research Seminar I 1 I.ST701

6 I.TC712 Research Seminar II 1 I.TC711

7 I.TC713 Research Seminar III 1 I.TC712

Certification Modules 6 credits

1 I.TС702 Finishing Technology for Textile Materials II 3 G.TSD307

2 I.TС703 Advanced Technology and Trends for Textile

Materials 3 G.TSD307

Elective Modules 9 credits

1 I.BT702 Material Science and Engineering I 3 G.TSD204

2 I.BT703 Re-engineering for Business Processing 3

3 I.TС704 Chemical Technology of Protein Fibers II 3 G.TSD307

4 I.TС705 Equipment and Usage for Processing of Textile

Industry 3 G.TSD305

5 I.TС706 Structure and Properties of Surface Active

Substance 3 G.TSD307

6 I.TI705 Usage of Computer in Textile Industy II 3 G.TSD314

7 I.TI715 Knitting Structure and Design II 3 G.TSD304

8 I.TI746 Quality Control and Certification II 3 G.TSD305

Experiment and Research 4 credits

1 S.FL711 Integrated Examination of Foreign Languages 1

2 I.TS780 Research Seminar 3

Master’s Thesis 5 credits

1 I.TS790 Master Thesis 5

Course name: “Modeling of Engineering” S.CS710

Module name:

Modeling of Engineering Workload entire module

96 hours Credits

2 credits

Module level:

Master Degree

Module

code: S.CS710

Index:

E07230104

Attribution to curriculum

Mathematics II (S.MT102)

3 credits / Compulsory/

Courses (status)

Modeling of Engineering

/Compulsory/

Language

Mongolian

Responsible person for this module

D.Enkhtuya Instructors

D.Enkhtuya

А. Assessment of the

Instructor:

70 points include:

Attendance: 10 points

Midterms : 20 points

Assignments: 40 points

B. Final Examination: 30

points

Semester

Fall/

Spring

Workload entire module

Teaching time:

Lecture: 16 hours

Seminar: 32

hours

Subtotal: 48

hours

Student’s assignment time:

- Preparation for assignments 15 hours - Preparation for midterms and the final

16 hours

- Preparation for seminars 16 hours - Additional time for visiting the

instructor for questions and comments 1

hour

Total: 48 hours

Educational objectives / competencies:

Knowledge:Probability theory, Mathematical statistics, Differential equations, Optimization theory, and some

theories and practical knowledge of Applied mathematics

Competency:Ability to apply mathematical methods of Engineering modeling and apparatus to model own

research and use it for further research

Practice: To apply theory and methodology of Applied Mathematics in research and further study

Contents:

Concepts of Probability Theory and applications

The fundamental concepts of Mathematical Statistics and applications

Methods for solving Ordinary and Partial differential equations and their applications

The basic concepts of Optimization and some applications

Prerequisites

“Mathematics II” (S.MT102)

Requirements for performance assessment

The final examination is a test. Textbooks are

prohibited in the final exam. In order to take the final,

students must have earned certain points from the

instructor’s assessment of 70 points, in other words

not “W” marking.

Additional reading

materials

Textbooks,

handbooks, lecture

notes, ppt lectures,

manuals for course

projects, and online

resources

References

1. J.Baasandorj, T.Bavuudorj et. al., “Engineering Mathematics II”

2. “Mathematics I”, 2011; “Mathematics II”, 2013

3. Zhevnyak R.M., Karpuk.A.A., “Higher Mathematics”, Part 2,3

4. R.Enkhbat, Ya.Bazarsad, “Probability Theory, Mathematic Statistics”, UB., 1996.

5. O.Tseren, “Linear Programming”

Course name: “Patent Study” S.IP710

Module name:

Patent Study Workload entire

module 48 hours Credits

1 credit

Module

level:

Master

Degree

Module code: S.IP710

Index:

E07230104

Attribution to

curriculum

Courses (status)

Patent Study

/Compulsory/

Language

Mongolian


D. Purevmagnai Instructors

D. Purevmagnai


Instructor:

70 points include:





points

Semester

Fall/

Spring


Teaching time:

Lecture: 32 hours

Subtotal:

32hours


- Preparation for assignments 15 hours - Additional time for visiting instructors

for questions and comments 1 hour

Total: 16 hours


Knowledge: Theoretical knowledgeof Industrial property,copyright (authorship), and their legal regulation and

relationship

Competency:Ability to file Intellectual property application, and to evaluate intellectual property

Practice: To plan and implement the process of developingideas and results into products and creation

Contents:

Concepts of Intellectual Property, Invention, Product Design, and “-effective” or “-efficient” designs

Concepts of Trademark and geographical indications

Copyright, Legal environment of intellectual property, evaluation of intellectual property

Filing Intellectual property application and the methodology of copyright protection

Prerequisites


Students are evaluated by 100 points in compliance

with Assessment and Evaluation rules for students of

MUST. In order to take the final, students must have

earned certain points from the instructor’s assessment

of 70 points, in other words not “W” marking.

Additional reading

materials

Textbooks,

handbooks, lecture

notes, manuals for

course projects, ppt

lectures and online

resources

References

1. D.Demberel, G.Gombo and more “Invention Patent” UB., 2000

2. Z.Namjil. “Patent-Legal Argument”. UB., 2000

3. Ts.Oyun. “Patent Studies”. UB., 2015

4. “Mongolian laws about Patents”, UB., 2006

5. “Mongolian laws about Trademarks, and Geographical Indications”., UB., 2003

6. “Mongolian laws about Copyrights and other rights pertaining to it”, UB., 2006

7. “Mongolian laws about Innovation”, UB., 2012

Course name:”Methodology of Research and Study” S.PS710

Module name:

Methodology of Research and Study Workload entire

module 48hours Credits

1credit

Module level:

Master Degree

Module code: S.IP710

Index:

E07230104


Methodology of Research

and Study (G.TS300)

3 credits /compulsory/

Courses (status)

Methodology of

Research and Study

/Compulsory/

Language

Mongolian


S. Ariuntsetseg Instructors

S. Ariuntsetseg


Instructor:

70 points include:




points

Semester

Fall/

Spring


Teaching time:

Lecture: 32 hours

Subtotal: 32

hours


- Preparation for assignments 15 hours - Additional time for visiting the

instructor for questions and comments 1

hour

Total: 16hours


Knowledge:Basic conceptsof Theories in Scientific Research and Methodology

Competency:Ability todetermine the purpose and goals of the scientific research and study

Practice: To develop scientific research plan

Contents:

The concept of “Science”, scientific perception, the main characteristics of scientific research and methodology

The Basic knowledge of science theory, and definitions

Selection of the research theme and topics, development of study plan

Prerequisites

Methodology of Research and

Study (G.TS300)


In order to take the final, students must have

earned certain points from the instructor’s

assessment of 70 points, in other words not “W”

marking.

Additional reading

materials

Textbooks, handbooks,

lecture notes, manuals for

course projects, ppt

lectures and online

resources

References

1. D.Dashjamts, “Theory of Scientific Research -Methodological basis”, 2017.

2. Ch.Avdai, D.Enkhtuya,“Research Methodology”, 2015.

3. D.Badarch, “System Thinking”, UB., 2014 (1st and 2nd lessons)

4. N.Altangerel., Sh.Batmunkh, “Scientific research methodology”, 2015.

5. Scientific Research standards of MUST: www.must.edu.mn

http://www.must.edu.mn/

Course name:”Research Methodology for Experimental Process”I.ST701

Module name:

Research Methodology for Experimental Process Workload entire


3credits

Module level:

Master Degree

Module code: I.ST701

Index:

E07230104



and Study (G.TS300)


Courses (status)

Research Methodology

for Experimental

Process /Compulsory/

Language

Mongolian



D.Enkhtuya


Instructor:

70 points include:




Lab/seminar: 20 points


points

Semester

Fall/

Spring


Teaching time:

Lecture: 32 hours

Seminar: 32

hours

Subtotal:

48hours


- Meet with the instructor according to the schedule approved for 2 hours in a

week for 5th-16

th weeks. (24 hours)

- Preparation for assignments 14 hours - Preparation for midterms and final 18

hours

- Preparation for seminar 24 hours Total: 80 hours


Knowledge:Theoretical knowledge of experimental design, survey methodology, and mathematical

computational methods

Competency:Ability to design experiment, to analyze experimental data, to develop mathematical model with

experimental data

Practice: To summarize experimental results, assess, and to conclude research results

Contents:

Phase of experimental research, methodology processing

Methods of selecting and/or sorting factors that affect the research design

Active experiment, analysis of the results of the one factor experiment, model fitting, assessment and evaluation methods and methodology

Multi-factor experiments, planning two-factor experiment, to develop mathematical model, assessment and evaluation methods

Passive observation, analysis of quantitative data, to develop correlation equation

Reporting the result of the research, discussion, writing scientific article, and presenting the research

Prerequisites


and Study (G.TS300)


The final examination is a test. Textbooks and lecture

notes are prohibited in the final exam. In order to take

the final, students must have earned certain points

from the instructor’s assessment of 70 points, in other

words not “W” marking.

Additional reading

materials

Textbooks,

handbooks, lecture

notes, professional

journals, and online

resources

References

1. D.Enkhtuya, “Mongolian Cashmere”, 2012. 2. Ch.Avdai, D. Enkhtuya “Research Methodology”, 2018. 3. R. Myadagmaa, “Processing Technology in Textile Manufacturing”, 2014

Course name: “Research Seminar I”I.TC711

Module name:

Research Seminar I Workload entire


1 credit

Module level:

Master Degree

Module code: I.TC711

Index:

E07230104



and Study (G.TS300)

3 credits /compulsory

Courses (status)

Research Seminar I

/Compulsory/

Language

Mongolian


R.Myadagmaa Instructors

R.Myadagmaa


Instructor:

70 points include:






points

Drawing lots/Oral examination

Semester

Fall/

Spring


Teaching time:

Seminar: 32 hours

Subtotal: 32 hours


- Preparation of assignments 4 hrs - Preparation of midterms and the

final 4 hrs

- Preparation of seminars 8 hours Total: 16 hours


Knowledge:Methodology of conducting research, types of research, contents of the processes at each stage of

the experiment, knowledge on execution of a research

Competency:Ability to analyze data obtained from the experiment, observation, and survey; to develop

mathematical model based on the analysis

Practice: Toconstruct a research hypothesis, to set research goals, to implement them step by step, to analyze

experimental data, and to summarize the findings

Contents:

Methodology of conducting research, types of research, and their features

Contents of the processes at each stage of the experiment, knowledge on execution of a research

Analysisof data obtained from the experiment, observation, and survey, development of a mathematical model based on the analysis, evaluation of the mathematical model

Prerequisites

Research Methodology for

Experimental Process

(I.ST701)


In order to take the final, students must have earned

certain points from the instructor’s assessment of 70

points, in other words not “W” marking. Students are

required to do research within the scope of their own

research field and to present the research results and

findings with PowerPoint.

Additional reading

materials

Professional

textbooks, lecture

notes, assignments

and other materials

References

1. Ch.Avdai, D.Enkhtuya, “Research Methodology”, UB., 2014. 2. Mario Bona, “Statistical methods for the textile industry”, Italy, 1993.

Additional Reading Materials

3. Vytovtov A.A., Gruzinov E.V., Shlenskaya T.V., “Physic-chemical properties and methods of quality control of products”, St.Petersburg, GIORD, 2007, pp 170.

4. Shklyar M.F., “Basics of scientific research”, Tutorial/M.:Publishing and Trading Corporation”Dashkov and K

o”, 2010, pp 244.

Course name: “Research Seminar II”I.TC712

Module name:

Research Seminar II Workload entire


1credit

Module level:

Master Degree


Index:

E07230104


Research Seminar I

(I.TC711) 1 credit

/Compulsory/

Courses (status)

Research Seminar II

/Compulsory/

Language

Mongolian



D.Enkhtuya


Instructor:

70 points include:






points


Semester

Fall/

Spring


Teaching

time:

Seminar: 32

hours

Subtotal: 32

hours


- Preparation of assignments 4 hrs - Preparation of midterms and the final

4 hrs



Knowledge:National and International standards for evaluating research and study; writing research article;

assessing and evaluating scientific research; preparing speech for Scientific conferences

Competency:Ability to analyze results of own research by national, ASTM, DIN, EN, ISO standards

Practice: To report results of the research, to present with PowerPoint, to analyze research results, to

summarize and conclude

Contents:

Methodology of discussing research articles in International professional journals

Methodology of evaluating own research by international standards

Writing a research article; evaluating a scientific research; writing a report; methodology of preparing speech for Scientific conferences

Prerequisites

Research Seminar I

(I.TC711)








Additional reading

materials

Professional

textbooks, lecture

notes, assignments

and other materials

References

1. Technical textile, Research Journal, 2007-2010 2. Textile Research Journal, 2007-2013 3. R. Myadagmaa, Dissertation, University of Stuttgart 4. “Brochure – standards for wool, cashmere, yarn, textile, felt, and knitted products”, 2009.


1. ASTM Standard

2. IWTO drafts

Course name: “Research Seminar III”I.TC713

Module name:

Research Seminar III Workload entire


1credit

Module

level:

Master

Degree


Index:

E07230104


Research seminar II

(I.TC712)1credit

/compulsory/

Courses (status)

Research Seminar III

/Compulsory/

Language

Mongolian



R.Myadagmaa

А. Assessment of the Instructor:

70 points include:





B. Final Examination: 30 points


Semester

Fall/

Spring


Teaching

time:

Seminar: 32

hours

Subtotal: 32

hours


- Preparation of assignments 4 hrs - Preparation of midterms and the final 4

hrs



Knowledge:Writing research article and papers for researchers and students who are studying for professional

master’s degree; drawing conclusions of a research, writing a research report

Competency: Ability to analyze results of own research by national, ASTM, DIN, EN, ISO standards

Practice: To report results of the research, to present with PowerPoint, to analyze research results, to

summarize and conclude

Contents:

Studying new technologies from international professional journals with high impact factor, evaluating them by ASTM, DIN, EN, ISO methods

To read and understand research articles and information related to the topic; to experiment in the laboratory and draw conclusions for domesticating the new technology

Methodology of publishing a scientific article within the scope of the research

Prerequisites

Research seminar II

(I.TC712)








Additional reading

materials

Professional

textbooks, lecture

notes, assignments

and other materials

References

1. Technical textile, Research Journal, 2007-2010 2. Textile Research Journal, 2007-2013 3. R. Myadagmaa, Dissertation, University of Stuttgart 4. “Brochure – standards for wool, cashmere, yarn, textile, felt, and knitted products”, 2009.


1. ASTM Standard

2. IWTO drafts

Course name:“Finishing Technology for Textile Materials II”I.TC702 Module name:

Finishing Technology for Textile Materials II Workload entire module

144 hours Credits

3credits

Module level:

Master Degree


Index:

E07230402


Chemical Technology of Textile

Materials (G.TSD307) 3 credits

/compulsory/

Courses (status)

Finishing Technology for

Textile Materials II

/Compulsory/

Language

Mongolian



R.Myadagmaa


Instructor:

70 points include:






points

Semester

Fall/

Spring


Teaching time:

Lecture: 32 hours

Laboratory: 32

hours

Subtotal: 64

hours


- Meet with the instructor according to the schedule approved for 2 hours in a week for 12 weeks in a

semester. (24 hours)

- Preparation for assignments 15 hours - Preparation for midterms and final 16 hours - Preparation for laboratory work 24 hours - Additional time for visiting the instructor for

questions and comments 1 hour

Total: 80 hours


Knowledge:Advanced technologies that provide new properties to textile materials, such as wrinkle resistance, anti-odor,

anti-felt, water repellent, and fire resistance; development of advanced technologies by studying the existing eco-friendly

technologies and properties of textile fibers

Competency:Ability to determine water repellency, wrinkle resistance, stain resistance, andanti-felt finishing by standard

methodologies

Practice: To evaluate properties of textile fabrics which are designed by eco-friendly technologies by international

standards

Contents:

General understanding of textile processing, modern trends in the textile industry

Advantageous properties oftextile fabrics designed by eco-friendly technologies (fire resistance, wrinkle resistance, odor absorbing)

Advanced technologies that enable anti-felt finishing on materials designed from cashmere and wool fibers

The concept of evaluation of chemical contents in materials designed from wool and cashmere by EcoTech standards

The basics of nanotechnology, enhancement of textile materials by nanotechnology

Prerequisites

Chemical Technology of

Textile Materials (G.TSD307)


In order to take the final, students must have earned certain

points from the instructor’s assessment of 70 points, in other

words not “W” marking. Students are required to do research

within the scope of their own research field and to present the

research results and findings with PowerPoint.

Additional reading

materials

Professional textbooks,

lecture notes,

assignments and other

materials

References

1. “Brochure – standards for wool, cashmere, yarn, textile, felt, and knitted products”, 2009. 2. R.Myadagmaa, Ts.Ganbold, “Laboratory Manual for Textile Chemical Technology”, 2013 3. Hans Karl- Rouette, “Encyclopedia of textile finishing” 4. Charlis Tomasino, “Chemistry of textile finishing”, 1992.


1. E.P.G. Gohl, L.D Vilensky, “Textiles for Modern Living”, 1986. 2. Paul Hohenadel, Jonathan Relton Textil Woerterbuch; A modern Textile Dictionary (Band I, English-Deutsch) 3. Slater K. “Chemical testing and analysis” , UK, 1990 4. R.Myadagmaa, “Professional Dictionary for Light Industry”, 2019.

Course name: “Advanced Technology and Trends for Textile Materials”I.TC703

Module name:

Advanced Technology and Trends for Textile Materials Workload entire


3credits

Module level:

Master Degree

Module code: I.TC 703

Index:

E07230104





Courses (status)

Advanced Technology

and Trends for Textile

Materials /Compulsory/

Language

Mongolian


P.Bulga Instructors

P.Bulga


Instructor:

70 points include:






points

Semester

Fall/

Spring


Teaching

time:

Lecture: 32

hours

Laboratory:

32 hours

Subtotal: 64

hours


- Meet with the instructor according to the schedule approved for 2 hours in a week for

12 weeks in a semester. (24 hours)

- Preparation for assignments 15 hours - Preparation for midterms and final 16 hours - Preparation for laboratory work 24 hours - Additional time for visiting the instructor


Total: 80 hours


Knowledge:Knowledge ofadvanced technology and advanced processing technology to provide advantageous

properties into textile fibers

Competency:Ability to summarize results and findings of a research, to write scientific article

Practice: To study advanced technologies, to implement processes within the scope of own research

Contents:

Trends of advanced technologies in the Textile Industry

Advanced techniques and technology of textile fiber processing

The basis of processing technology that is harmless to nature and human (high technology, alternative technology)

Processing and technology that provide color changing textile fibers (smart thread)

Concepts of processing “self healing” textile fibers

Prerequisites






points, in other words not “W” marking. Students

are required to do research within the scope of their

own research field and to present the research results

and findings with PowerPoint.

Additional reading

materials

Professional

textbooks, lecture

notes, assignments

and other materials

References

1. “Brochure – standards for wool, cashmere, yarn, textile, felt, and knitted products”, 2009.

2. R.Myadagmaa, Ts.Ganbold, “Laboratory Manual for Textile Chemical Technology”, 2013

3. Hans Karl- Rouette, “Encyclopedia of textile finishing”

4. Charlis Tomasino, “Chemistry of textile finishing”, 1992.


5. E.P.G. Gohl, L.D Vilensky, “Textiles for Modern Living”, 1986.

6. Paul Hohenadel, Jonathan Relton Textil Woerterbuch; A modern Textile Dictionary (Band I, English-

Deutsch)

7. Slater K. “Chemical testing and analysis” , UK, 1990

8. R.Myadagmaa, “Professional Dictionary for Light Industry”, 2019.

Course name: “Material Science and Engineering I”I.BT702

Module name:

Material Science and Engineering I Workload entire


3credits

Module level:

Master Degree

Module code: I.BT702

Index:

E07230402


Textile Material science II

(G.TSD204) 3 credits

/compulsory/

Courses (status)

Material Science and

Engineering I

/Compulsory/

Language

Mongolian



D.Enkhtuya


Instructor:

70 points include:






points

Semester

Fall/

Spring


Teaching time:

Lecture: 32 hours

Laboratory: 32

hours

Subtotal: 64

hours



week starting from 5th to 16

th week. (24

hours)


hours

- Preparation for laboratory work 24 hours

- Total: 80 hours


Knowledge:Indicators of structure, properties, and application of textile materials; engineering and technology

knowledge on improving these indicators

Competency:Ability to create aninnovative solution to change the structure and properties of textile materials

Practice: To evaluate and assess structure and properties of textile materials, and to reach conclusions

Contents:

The study of textile materials and engineering, Structure features of textile materials

Qualitative and Quantitative assessment of textile materials, identification, comparison, and application of textile materials

Physical and mechanical properties of textile materials, consumption parameters of textile materials

Structure-property changes in the process of technological development, textile quality evaluation

Structure-property changes in utilization, physical damage to textiles, evaluation

Methods and technologies to protect textile materialsfrom bacteria and UV light effects

Prerequisites

Textile Material science II

(G.TSD204)





instructor’s assessment of 70 points, in other words not

“W” marking.

Additional reading

materials

Textbooks,

handbooks, lecture

notes, and online

resources

References

- D. Enkhtuya, “Mongolian Cashmere”, 2012.

- R. Myadagmaa, “Processing Technology in Textile Manufacturing”, 2014.

- Research articles, reports and professional journals

- Research Report

Course name: “Re-engineering for Business Processing” I.BT703 Module name:

Re-engineering for Business Processing Workload entire module

144 hours Credits

3credits

Module level:

Master Degree Module code: I.BT703

Index:D07230402

Attribution to

curriculum

Courses (status)

Re-engineering for Business

Processing /Compulsory/

Language

Mongolian


D.Batbayar Instructors

D.Batbayar


Instructor:

70 points include:


Midterm I :10 points

Midterm II : 10 points



Semester

Fall/

Spring


Teaching time:

Lecture: 32 hours

Seminar: 32 hours

Subtotal: 64 hours


- Meet with the instructor according to the schedule approved for 2 hours in a week starting 5

th week.

(24 hours)



Total: 80 hours


Knowledge:The necessity of implementing manufacturing process reengineering, management methods used in it; change

management, benchmarking, process selection, methodology to calculate manufacturing efficiency indicators, research

methodology, methodology of using software programs in reengineering processes

Competency:Ability to collect data and information necessary for manufacturing process reengineering, to analyze the

data as well as to model reengineering processes, to simulate the model using software programs

Practice: To develop and implement manufacturing process reengineering project with the knowledge gained through

the course

Contents:

The purpose, importance, and implementation methods of manufacturing process reengineering

Change management and benchmarking of manufacturing process reengineering

Methods and methodology of Information systems management

Calculation of manufacturing efficiency indicators, improvement methods and techniques

Real cases of successful manufacturing process reengineering implementation

A manufacturing process reengineering project, modeling of reengineering process, software programs

Prerequisites Requirements for performance assessment

In order to take the final, students must have earned certain

points from the instructor’s assessment of 70 points, in

other words not “W” marking. Theoretical knowledge is

evaluated by a test and practical knowledge is evaluated by

calculation of reengineering project of manufacturing.

Additional reading

materials

Textbooks, handbooks,

ppt lecture notes, and

online resources

References

1. Hammer, M. and Stanton, S.A., (1995), The Re-engineering Revolution, Harper Business 2. Carr, D.K. and Johanson, H.J., (1995), Best Practices in Re-engineering- What Work and What Does Not in the

Re-engineering Process, McGraw Hill.

3. Hammer, M., (1996), Beyond Reengineering: How the Process-Centered Organization Is Changing Our Work and Our Lives, New York: Harper Collins Publishers

4. Davenport, T.H., (1993), Process Innovation: Re-engineering Work through Information Technology, Boston, Massachusetts: Harvard Business School Press.

5. Davenport, T.H. and Short, J. E., (1990), The New Industrial Engineering: Information Technology and Business Process Redesign Sloan Management Review, Summer, Vol. 31

6. Harmon, P. (2007), Business process change: A Guide for Business managers and BPM and Six Sigma Professionals, Elsevier/Morgan Kaufmann Publishers.

7. R. Anupindi et al. (2006), Managing Business Process Flows: Principles of Operations Management, Pearson Education Inc.

8. Davenport, T.H., (2003), Reengineering Revisited, Computerworld, June, Vol.37.

Course name: “Chemical Technology of Protein Fibers II”I.TC704

Module name:

Chemical Technology of Protein Fibres II Workload entire


3credits

Module

level:

Master

Degree


Index:

E 7230104


Dyeing Technology and Dyestuffs of

Protein Fibres (G.TS307) , 3 credits

/compulsory/

Courses (status)


ProteinFibers II

/Compulsory/

Language

Mongolian



R.Myadagmaa


Instructor:

70 points include:






points

Semester

Fall/

Spring


Teaching

time:

Lecture: 32

hours

Laboratory:

32 hours

Subtotal:

64 hours






Total: 80 hours


Knowledge:Knowledge of processing of protein fibers compatible with their properties and chemical structure

Competency:To calculate technology of processing wool, cashmere, hair, and silk fibers compatible with their

surface structure

Practice: To practice technology of processing protein fibers

Contents:

Replenishment, utility, application, use, and trends of protein fibers such as sheep wool, cashmere, hair, camel wool, mohair, llama wool, vicuna wool, and silk

Chemical structure and special features of the above mentioned protein fibers

Chemical technology of processing the above mentioned protein fibers

Processing technology of modifying sheep wool fiber properties into cashmere like properties

Prerequisites

Dyeing Technology and

Dyestuffs of Protein Fibres

(G.TS307)



certain points from the instructor’s assessment of

70 points, in other words not “W” marking.

Students are required to do research within the

scope of their own research field and to present the

research results and findings with PowerPoint.

Additional reading

materials

Professional

textbooks, lecture

notes, assignments

and other materials

References

1. “Brochure – standards for wool, cashmere, yarn, textile, felt, and knitted products”, 2009. 2. R.Myadagmaa, “Processing Technology inTextile Industry”, 2014. 3. Hans Karl- Rouette, “Encyclopedia of textile finishing” 4. Charlis Tomasino, “Chemistry of textile finishing”, 1992.


5. E.P.G. Gohl, L.D Vilensky, “Textiles for Modern Living”, 1986. 6. Paul Hohenadel, Jonathan Relton Textil Woerterbuch; A modern Textile Dictionary (Band I, English-

Deutsch)

7. Slater K. “Chemical testing and analysis” , UK, 1990 8. R.Myadagmaa, “Professional Dictionary for Light Industry”, 2019.

Course name: “Equipment and Usage for Processing of Textile Industry”I.TC705

Module name:

Equipment and Usage for Processing of Textile Industry Workload entire module

144 hours Credits

3credits

Module

level:

Master

Degree


Index:

E07230104


Finishing Eguipments for

Textile Materials (G.TSA305)


Courses (status)

Equipment and Usage for

Processing of Textile

Industry /Compulsory/

Language

Mongolian



R.Myadagmaa


Instructor:

70 points include:






points

Semester

Fall/

Spring


Teaching

time:

Lecture: 32

hours

Laboratory:

32 hours

Subtotal: 64

hours






Total: 80 hours Educational objectives / competencies:

Knowledge:Theoretical knowledge of machinery and equipment used in Textile Industry, their operating principles and

safety

Competency:Ability to work independently and as a part of a team, to express own opinion and ideas in front of others,

to evaluate own work and to present it

Practice: To set configuration and to perform operating procedures of continuous and discontinuous processing

machinery and equipment

Contents:

General understanding of textile processing equipment, their classification, type, and specification

Structure and organization of rope and open-width forms of washing equipment of textile fabrics

Electrical Infrared dryers in textile industry

Air flow dyeing machines which use aerodynamic dyeing system; color matching equipment

Calendering Machine for knitted fabric processing

Decanting machines for wool and cashmere processing

Prerequisites

Finishing Eguipments for

Textile Materials (G.TSA305)








Additional reading

materials

Professional

textbooks, lecture

notes, assignments

and other materials

References

1. Hans Karl- Rouette “Encyclopedia of textile finishing” 2. R.Myadagmaa, “Processing Technology in Textile Industry”, 2014. 3. Anton Schenek, “Naturfaser lexikon ”, 2000. 4. Charlis Tomasino,“Chemistry of textile finishing”, 2012.


1. A.K.Roy Choudhury, “Textile Preparation and Dyeing Textile Preparation and Dyeing”, 2004. 2. F. Beech, “Dyeing of woolen and cotton fabrics”, 2007. 3. H.Eberle, H.Hermeling, “Fachwissen Bekleidung”, 2007.

http://pdfebookcollectionfreedownload.blogspot.com/2009/09/encyclopedia-of-textile-finishing.html

Course name: “Structure and Properties of Surface Active Substance” I.TC706

Module name:

Structure and Properties of Surface Active Substance Workload entire module

144 hours Credits

3credits

Module

level:

Master

Degree


Index:

E07230104




3 credits/compulsory/

Courses (status)

Structure and Properties of

Surface Active Substance

/Compulsory/

Language

Mongolian



R.Myadagmaa


Instructor:

70 points include:






points

Semester

Fall/

Spring


Teaching

time:

Lecture: 32

hours

Laboratory: 32

hours

Subtotal: 64

hours






Total: 80 hours


Knowledge:Types, classifications, and properties of Surface-Active agents used in textile industry, methods and

methodology of production of surface active agents, analysis of surface active agents

Competency:Ability to determine occurrence, pH, foaming of Surface-active agents used in the primary and the

final stages of wool and cashmere processing by standards

Practice: To study surface-active agents used in the primary and the final washing stages of wool and

cashmere, to develop technological procedure, and to evaluate the procedures

Contents:

Classifications,types and properties of Surface-active agents;production methods of surface active agents

Structure and application of surface-active agents used in textile manufacturing processing

Concepts of analysis and evaluation standards of surface-active agents

Properties and special features of surface-active agents used in the primary and the final processing stages of wool and cashmere

Technology to produce household surface-active agents from animal fat

Prerequisites










Additional reading

materials

Professional

textbooks, lecture

notes, assignments

and other materials

References

1. Buchstav.Z.I., Melnik.A.P., Kovalev.V.M, “Technology of synthetic detergents”, 1995 2. Hans Karl- Rouette, “Encyclopedia of textile finishing” 3. Charlis Tomasino, “Chemistry of textile finishing”, 1992


1. E.P.G. Gohl, L.D Vilensky, “Textiles for Modern Living”, 1986 2. Slater K., “Chemical testing and analysis” , UK, 1990 3. R.Myadagmaa, “Professional Dictionary for Light Industry”, 2019 4. Sh.Luvsandorj, “Study of chemical composition of some lakes in Mongolia”, M, 1969

Course name: “Usage of Computer in Textile Industy II” I.TI705

Module name:

Usage of Computer in Textile Industy II Workload entire


2 credits

Module

level:

Master

Degree

Module code: I.TI705

Index:

E07230104


Usage of Computer in

Textile Industry I

(G.TSD314)

/Elective/

Courses (status)


Textile Industry II

/Compulsory/

Language

Mongolian


P.Tuul Instructors

P.Tuul


Instructor:

70 points include:






points

Semester

Fall/

Spring


Teaching time:

Lecture: 16 hours

Laboratory: 32

hours

Subtotal: 48

hours



week. (24 hours)


hours

- Preparation for laboratory work 8 hours

Total: 48hours


Knowledge:Knowledge necessary to work on SDS-One PGM, Draw software

Competency:Ability to design knitted fabric products (woven) by SDS-One PGM, Draw software

Practice: To design a product by using SDS-One PGM, Draw software independently

Contents:

Menu and tools of SDS-One PGM, Draw program

To design knitwear product by using SDS-One PGM, Draw program

To adjust size using SDS-One PGM, Draw program

To tailor a knitwear using SDS-One PGM, Draw program

Menu, tools, and application of SDS-One PGM, Draw program

Prerequisites


Textile Industry I

(G.TSD314)


The final examination is a test and tasks which have to be

executed by using computers. In order to take the final,



“W” marking. Textbooks, lecture notes are prohibited in

the final exam.

Additional reading

materials

Professional

textbooks,

handbooks, lecture

notes, assignments,

and other materials

References

1. Shima seiki Primary level User Manual

2. Shima seiki Advanced level User Manual

3. Shima seiki Machine Operating Guide

4. SDS-One Apex design systems Help lessons

Course name: “Knitting Structure and Design II” I.TI715

Module name:

Knitting Structure and Design II Workload entire


3credits

Module level:

Master Degree


Index:

E07230402


Knitting Technology II

(G.TSD304), 3 credits

/compulsory/

Courses (status)

Knitting Structure and

Design II /Compulsory/

Language

Mongolian


P.Tuul Instructors

P.Tuul


Instructor:

70 points include:






points

Semester

Spring


Teaching time:

Lecture: 32

hours

Laboratory: 32

hours

Subtotal: 64

hours


- Meet with instructors according to the schedule approved for 2 hours in a week.

(24 hours)



Total: 80 hours


Knowledge:Theoretical knowledge of Advanced Knitting Technology, to master DSCS, Multi gauge, Intarsia,

Jacquard, Interlock, Racking, Plating, Flechage techniques

Competency:Ability to create unique new knit pattern of irregular surface, to program, to experiment and

sample

Practice:To use new techniques, to configure and run an automatic knitting machine

Contents:

Advanced Knitting Technology

Production of smooth hinged knitting using DSCS technique

Production of long and short loops simultaneously using Multi gauge technique

Production of colored pattern knitting using Intarsia, Jacquard techniques

Technology of producing Interlock double knits

An experiment and study to produce a new unique, irregular surface knits

Prerequisites

Knitting Technology II

(G.TSD304)




points, in other words not “W” marking. Theoretical

knowledge is evaluated by a test, and practical knowledge

is evaluated by the results of the experiment.

Additional reading

materials

Textbooks,

handbooks, ppt

lecture notes, and

online resources

References

1. David Spencer, “Knitting technology”, 2000

2. MACH 2Xinstruction manual, 2009

3. Shima seiki Apex 3.3 design systems HELP lessons

4. Shima seiki SSG/SIG training manual(Application), 2013

5. Shima seiki DSCS Digital Stitch Control System instruction manual, 2008

Course name:“Quality Control and Certification II” I.TI746

Module name:

Quality Control and Certification II Workload entire


2 credits

Module level:

Master Degree


Index:

D07230104


Quality Control in

Manufacturing I(G.TSD305)


Courses (status)

Quality Control and

Certification II

/Compulsory/

Language

Mongolian


R.Badmaanyambuu Instructors

R.Badmaanyambuu


Instructor:

70 points include:






points

Semester

Fall/

Spring


Teaching time:

Lecture: 32 hours

Seminar: 32 hours

Subtotal: 64 hours



week for 12 weeks in a semester. (16

hours)

- Preparation for seminar16 hours Total: 32hours


Knowledge:Theoretical knowledge of Integrated Quality management, quality parameters, statistical methods

for quality control, quality assurance, quality assurance schemes

Competency: Ability to manage a professional team and manufacturing technology processes by using

practical knowledge and skills such as the role and importance of quality infrastructure, six sigma-quality

management, fishbone diagram, and quality circle

Practice: To record and keep quality control card, to analyze deficiencies of products; to plan, organize,

manage, and implement quality control processes in manufacturing.

Contents:

Integrated quality management, quality infrastructure, quality parameters, statistical methods for quality control

Quality assurance, quality audit, quality validation

Practical methods of quality control, product quality control, evaluation, improvements

Methods of problem solving

Prerequisites

Quality Control in

Manufacturing

I(G.TSD305)




points, in other words not “W” marking. The final

examination is a test which has elemental, theoretical, and

problem solving parts.

Additional reading

materials

Textbooks,

handbooks, ppt

lecture notes, and

online resources

References

• Mario Bona, “Textile Quality”, Italy, Torino. 1994.

• T.Sosorbaram, “Product Quality Control”, 2013.

• O.Chilkhaasuren, “The basis for Quality, Standards”, 2013.

• James R.Evans & William M.Lindsay, “Managing for quality and performance excellence”, 7nd Edition,

2008. ISBN 10-324-38228-6

• James Evans, “Quality management – Management Organization and Strategy”, Italy, Torino. 2004

• James R.Evans, William M.Lindsay,“The management and control of Quality”, 6th edition, New York. 2005

• Anita A.Stamper, Sue H.Sharp, Linda B.Donnell, “Evaluating apparel quality”, New York. 1996

Course name: “Research Seminar”I.TS780

Module name:

Research Seminar Workload entire


3 credits

Module level:

Master Degree

Module code: I.TS780

Index:

D07230104


Research Methodology for

Experimental Process (I.ST701),


Courses (status)

Research Seminar

/Compulsory/

Language

Mongolian


D.Batbayar (Head of the Department of LITE) Instructors

Professors and lecturers of the program


70 points include:

Studying research methodology

10 points

Conducting research and

experiment 20 points

Testing and analysis of material

properties 20 points

Scientific articles, speech 20 points


Semester

Fall/

Spring


Teaching

time:

Lecture: 0hrs

Seminar: 0hrs

Subtotal:0hrs


- Conducting research and experiments 40 hrs

- Experimental methods 40 hrs - Test analysis 40 hrs - Scientific articles and speech 24

hrs (visits to the instructor for

questions and comments)

Total: 144 hours


Knowledge:Practical knowledge to plan research and conduct an experiment in accordance with Research

Methodology

Competency:Ability to write academic article based on experimental results and to present in scientific

conferences

Practice: To plan and implement tests and experiments and to analyze experimental results

Contents:

Methodology of Experimental research

Previous Research study

Theoretical Background

Planning of research and experiments, Analysis of experimental results

Writing academic paper (scientific article), and prepare a presentation of the research

Publish a research article

Prerequisites

Students must have

successfully completed

necessary professional

compulsory and elective

courses of Master program

of “Textile Technology”.




points, in other words not “W” marking. The final

examination is evaluated by

Publication of the research article and speech in

academic conference.

Additional reading

materials

Textbooks,

handbooks, ppt

lecture notes, and

online resources

References

1. TheDatabase of scientific articles, JournalofTextileandapparel, TechnologyandManagement, CD version.

2. TheDatabase of scientific articles, Textileresearchjournal,CD version.

3. National and International Professional journals and conference proceedings

4. TheDatabase of scientific articles, Clothing and Textile research journal, CD version.

Course name: “Integrated Examination of Foreign Language” S.FL 711

Module name:

Integrated Examination of Foreign Language Workload entire module

48 hours Credits

1credit

Module level:

Master Degree

Module code: S.FL 711

Index:

E07230402

E07230104


Basic of professional subjects

and professional subjects 30

credits / Compulsory/

Courses (status)

Integrated Examination of

Foreign Language

/Compulsory/

Language

English


G.Enkhzaya Instructors

G.Enkhzaya


70 points include:





Semester

Fall/

Spring


Teaching time:

Lecture: 16 hours

Subtotal: 16 hours


- Preparation for assignments 4 hours - Preparation for midterms and the final 4

hours

- Preparation for seminars 4 hours - Additional time for visiting the instructor


Total: 32 hours

Graduate Foreign Language Proficiency Exam

Master students get permission to take the Foreign Language Proficiency Exam after studying a total of 30-credit compulsory courses.

The Foreign Language Proficiency Exam Committee is nominated by the Office of Graduate School of MUST a month prior to the exam and then it is approved by the order of the university president.

The Graduate Foreign Language Proficiency Test is approved by the director of the School of Foreign Languages 14 days prior to the exam. The Graduate School of MUST is responsible for the security and reliability of the test until

the exam date.

The Exam Committee with 2 language teachers with a Master or PhD degree gives the Foreign Language Proficiency Test to students.

Contects:

A schedule on the Foreign Language Proficiency Exam is made 2 weeks before the exam. The Office of Graduate School

of MUST announces the exam date to the students. If there are some important changes with the test, the Graduate School

Office will inform the branch schools in advance.

Duration of the Graduate Foreign Language Proficiency Test is 90 minutes.

If a graduate student fails the exam, he/she can take the exam again.

If there are some misunderstandings with the test results, the Graduate School Office will nominate an external review committee which can solve the issues in this matter.

The Foreign Language Proficiency Exam Committee gives detailed notes of the exam procedures and exam materials to the Office of the Graduate School of MUST.

Prerequisites

Basic of professional

subjects and professional

subjects 25 credits /

Compulsory/






“W” marking.

Additional reading

materials

Textbooks,

handbooks, lecture

notes, ppt lectures,

manuals for course

projects, and online

resources

References

1. Mary E. Ward, “Fashion Industry” , Express Series, Oxford University 2. Carl A. Lawrence, “Fundamentals of spun yarn technology”, CRC Press LLC 3. Helmut Kipphan and Richard J.Broekhuizen, “Handbook of Print Media by Graphic Communication” 4. Richard J.Broekhuizen, “Graphic Communication” 5. Extra materials 6. “Oxford Preparation course for the TOEIC test”, Oxford, 2010 7. http://www.esl.com

http://www.free-english-study.com

http://www.esl.com/http://www.free-english-study.com/

Course name: “Master Thesis” I.TS790

Module name:

Master Thesis Workload entire


5 credits

Module

level:

Master

Degree

Module code: I.TS790

Index:

D07230104


Research workshop (I.TS780)


Courses (status)

Master Thesis Language

Mongolian


D.Batbayar (Head of the Department of LITE) Instructors

Professors and lecturers of the program


Instructor:

70 points include:

Inspections: 45 points

Academic Supervisor: 5 points

Preliminary Defense: 20 points

Б.Thesis Defense: 30 points

Semester

Fall/

Spring


Teaching

time:

Review

Lecture


- Choosing Master’s Thesis Topic 12 hrs - Research Background, requirements 12

hrs

- Theoretical study 48 hrs - Experimental Methods 24 hrs - Pilot survey 48 hrs - Methods of test and analysis 48 hrs - Analysis of experimental results 48 hrs - Research article and speech 16 hrs

Total: 240 hours


Knowledge:Identify manufacturing technological issues, resolve the problems, manage research processes

Competency:Ability to do research based on knowledge, skills, and practice acquired during the program

study

Practice:To manage, conclude, and resolve manufacturing technological processes based on results and

findings of tests and experimental research

Contents:

The topic of research project

Background of the research, and requirements

Theoretical study and experimental methods

Pilot Survey

Methods of tests and analysis

Analysis of experimental results and data

Indexing of references

Prerequisites

Students must have

completed necessary

professional compulsory

and elective courses of

Master Program of Textile

Technology with “D” or

above assessment.


The implementation of Master’s dissertation is evaluated

by 3 inspections that have 15 points each. The academic

supervisor and preliminary defense committee assess the

thesis completion by 5 and 20 points respectively. The

Master’s thesis completion is evaluated total of 70 points.

The thesis defense committee evaluates completion and

defense of the thesis by 30 points.

Additional

reading materials

Textbooks,

handbooks, ppt

lecture notes, and

online resources

References

1. The main textbooks, statistical periodicals, guides for standards, professional books, monographs and

related online resources-websites of Bachelor and Master program of “Textile Manufacturing

Technology”.

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