ERCIYES UNIVERSITY FACULTY OF ENGINEERING TEXTILE

Transkript

ERCIYES UNIVERSITY
FACULTY OF ENGINEERING
TEXTILE ENGINEERING DEPARTMENT
I. General Information
Course Title
AIT 101 Ataturk’s Principles and Reforms I
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 2
Coordinator
Cengiz KARTIN
Erciyes University, Faculty of Engineering, Dept. of Textile Engineering, 38039 Kayseri, TURKEY
E-mail: [email protected] Web Page :
II. Course Information
CATALOG DESCRIPTION:
To teach the history of modern Turkish history, Atatürk’s Principles and the history of Turkish
renovation
COURSE PRECONDITIONS:
Only undergraduate students are accepted for the course
LEARNING OBJECTIVES:
TEXTBOOK:
1. ATATÜRK, Mustafa Kemal, Nutuk (1919-1927), ( Hazırlayan: Zeynep Korkmaz), Atatürk
Araştırma Merkezi Yayınları, Ankara 2000.
2. Atatürk’ün Söylev Demeçleri, C. I-II-III, Atatürk Araştırma Merkezi Yayınları, Ankara 1997.
3. Atay Falih Rıfkı, Çankaya, Bateş Yayınları, İstanbul,1980.
4. A Abadan Yavuz, Atatürk ve İlkeleri, Varlık Yayınları, İstanbul, 1963.
5- İNAN, Afet, Medenî Bilgiler ve Mustafa Kemal Atatürk’ün El yazıları, Ankara 1969.
GRADING:
1. Midterm ( 40 %)
2. Final exam (60 %)
TOPICS: (14 Weeks)
st
(1 Week) acquaintance and revolution’ comprehend .
nd
(2 Week) Otoman Empire’s ruin.
rd
(3 Week) Renovation movement.
th
(4 Week) Tripoli War, Balkan War
th
(5 Week) I. Word War and front.
th
(6 Week) Ermenian Matter of.
th
(7 Week) Mondros Truce.
th
(8 Week) Midterm Exam.
th
(9 Week) Mustafa Kemal Pasa’s Samsun of Way Out.
th
(10 Week) Amasya, Erzurum and Sivas’ Congress.
th
(11 Week) National of Treaty and Turkish Grand National Assembly’s Opening.
th
(12 Week) East and South Front.
th
(13 Week) West Front.
th
(14 Week) Sevr and Lozan Agreements.
OUTCOME COVERAGE:
 Apply math, science and engineering knowledge.
 Design a system, component or process to meet desired needs.
 Identify, formulate, and solve engineering problems.
ERCIYES UNIVERSITY
Course Title
AIT 102 Ataturk’s Principles and Reforms II
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 2
Coordinator
Lec. Cengiz KARTIN
E-mail: [email protected]
Web Page :
To teach the history of modern Turkish history, Atatürk’s Principles and the history of Turkish
renovation
TEXTBOOK:
1- ATATÜRK, Mustafa Kemal, Nutuk (1919-1927), ( Hazırlayan: Zeynep Korkmaz), Atatürk
Araştırma Merkezi Yayınları, Ankara 2000.
2- Atatürk’ün Söylev Demeçleri, C. I-II-III, Atatürk Araştırma Merkezi Yayınları, Ankara 1997.
3- Atay Falih Rıfkı, Çankaya, Bateş Yayınları, İstanbul,1980.
4- A Abadan Yavuz, Atatürk ve İlkeleri, Varlık Yayınları, İstanbul, 1963.
5- İNAN, Afet, Medenî Bilgiler ve Mustafa Kemal Atatürk’ün El yazıları, Ankara 1969.
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
(1st Week) The Turkish Revolution and the Establishment of a National İdenty.
(2nd Week) Atatürk’s Ekonomic Strategies, Atatürk’s Public Finance Policy.
(3rd Week) Atatürk’s Politic Strategies.
(4th Week) The Secularization and Unification of Education.
(5th Week) Womnen’s Rights, The Arts, The Alphabet Reform, Reckoning Time and Units of
Measure.
(6th Week) Atatürk’s Foreign Relations Policy.
(7th Week) Atatürk’s Foreign Policy During the National Liberation Struggle.
(8th Week) Turkish Foreign Policy Betwen the 1932-1938.
(9th Week) Mid Term Examination
(10th Week) Atatürk’s Conception of Nation and Nationalizm.
(11th Week) Republicanizm
(12th Week) Statizm,Populizm,
(13th Week) Secularizm.
(14th Week) Atatürk Principles; National State, Complete İndependence, Westernization, A Realistic
Approach, Allegiance to Legality, Peace at Home; Peace in the World.
OUTCOME COVERAGE:


Design a system, component or process to meet desired needs.
Identify, formulate, and solve engineering problems.
ERCIYES UNIVERSITY
Course Title
ING 101 English I
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 3
Coordinator
Ahmet EYİCİ
At the end of this course, students will be able to:
1. Communicate with their colleagues and friends in English
2. understand what they read in English and use the basic language skills
TEXTBOOK:
 Reader at Work by A.Velioğlu,B.Kandiller,N.Tugay Published by METU Department of Basic English
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks) Selected related toppics from Reader at Work by Middle East Technical
University
(1st Week) Unit 3 Atoms
(2nd Week) Unit 6 Aquifers
(3rd Week) Unit 7 Educational Standards
(4th Week) Unit 8 School for change
(5th Week) Unit 12 Work Matters
(6th Week) Unit 18 Earthquakes
(7th Week) Unit 19 Vitamins
(8th Week) Unit 22 Advertising
(9th Week) Unit 23 Winds
(10th Week) Unit 35 Changes in World Climate
(11th Week) Unit 41 Keys to Quicker Learning
(12th Week) Unit 42 The Discovery of the Electron
(13th Week) Unit 44 Fresh Water
(14th Week) Unit 45 Minerals etc. Plus additional articles and written sources
OUTCOME COVERAGE:
 Our Course aim is to teach students English so well that they can communicatewith their
colleagues and understand English documents which they have to search.
ERCIYES UNIVERSITY
Course Title
ING 102 English II
LOCAL CREDIT: 6
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 8
Coordinator
Ahmet EYİCİ
Erciyes University, Faculty of Engineering, Dept. of Textile Engıneering, 38039 Kayseri, TURKEY
Since our students passed Proficiency Exam in English successfully, we plan to help them to improve
their reading and comprehensive skills as well as writing and speaking&listening so that they can get
use of English sources in their own field and to be able to correspond with their colleagues and other
academic stafff all over the world.
1. Reading and Comprehension techniques and support their Grammar and vocabulary needs.
2. Teaching them translation techniques from English into Turkish
3. Teaching how to write an essay or comparison
LEARNING OBJECTIVES: At the end of this course, students will be able to:
1- Read and Comprehend what to read by means of the techniques and support their Grammar and
vocabulary needs.
2-Teach them translation techniques from English into Turkish
3-Learn how to write an essay or comparison and Express their thoughts and ideas
COURSE STRUCTURE:
The class meets for two lectures a week, each consisting of two 50-minute sessions and a Research
Assignments and Homework can be given weekly or per term on a related subject of their own field or
engineering.can be collected and the result might effect 10% and added their final exam grades.
TEXTBOOK:
 A.Velioglu, B.Kandiller. N.Tugay, METU, Dept of Basic Eng. Reader at Work II
GRADING:
1. Homework and quizzes (10%)
2. Midterm Exam (30%)
3. Final Exam (60%)
TOPICS: (14 Weeks) Selected related toppics from Reader at Work by Middle East Technical University
(1st Week) Unit 57 Earthquake Prediction
(2nd Week) Unit 58 Marketing
(3rd Week) Unit 60 Lasers in Medicine
(4th Week) Unit 61 Engineering in Charge
(5th Week) Unit 63 Crude Oil
(6th Week) Unit 68 Exploration for Oil
(7th Week) Unit 69 The Computer
(8th Week) Unit 70 Electron Theory
(9th Week) Unit 72 The Basis of Refrigeration
(10th Week) Unit 77 Atoms II
(11th Week) Unit 80 Distilling Oıl
(12th Week) Unit 84 Choosing a Carrier
(13th Week) Unit 88 Electric Shocks
(14th Week) Unit 89 Stress and 85 Powers of the Human Body etc. Plus additional articles and
written sources
OUTCOME COVERAGE:
*At the and of the term,our aim is to motivate and teach students how to learn and use English in our
Professional lives so that they will be aware that they can communicate in English even among
themselves and with their lecturers.They will be ready to attend lectures abroad after getiing self
confidence.
ERCIYES UNIVERSITY
ING 201 Reading and Speaking in a Foreign
Language
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 3
Coordinator
Assoc. Prof. Dr. İsmail KARACAN
Course Title
At the end of this course, students will be able to: to gain skills in reading and speaking in English
language
TEXTBOOK:
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
(1. Week) Definition of the lectures and contents
(2. Week) English Level assessment examination
(3. Week Assessment of the examination results
(4. Week) Translation from English to Turkish
(5. Week) Translation from Turkish to English
(6. Week) Student Presentation and assessment
(8. Week) Midterm Exam
(9. Week) Student Prersentation and assessment
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
ING 301 Technical English II
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 5
Coordinator
Assoc. Prof.Dr. Levent ÖNAL
Web Page :
Fundementals of weaving, knitting, nonwoven, braiding and textile chemistry, Readings and
translations of articles on these topics, Teaching technical terms widely used in those parts.
Knowledge of Technical English I and Fabric Technology
1. technical terms related to the textile structures and technologies
2. understand technical readings and follow the written literature in fabric formation techniques
on weaving, knitting, nonwovens and braiding.
3. improve comprehensive skills
TEXTBOOK:
1-Principles of weaving, R. Marks and A.T.C. Robinson, Textile Institute, 1976.
2-Weaving : Conversion of yarn to fabric, P. R. Lord and M. H. Mohamed, Merrow
Publishing, 2nd Ed., 1982
3-The Knitting Industry: Present Needs, Future Requirements (Textile Progress V: 19 No.1)
4-Developments in Non-Woven Fabrics (Textile Progress V: 12 No. 4)
GRADING:
1. Homework ( 10 %)
2. Midterm ( 30 %)
TOPICS: (14 Weeks)
Week 1: Types of fabric formations
Week 2: An outline of the weaving process
Week 3: The motion of healds, sley and shuttle
Week 4: Shedding mechanisms
Week 5: Rapier, jet and continuous methods of weft insertion
Week 6: Translation of various articles in weaving technology
Week 7: MIDTERM EXAM
Week 8: Types of non-wovens
Week 9: Thermal bonding in the production of nonwoven fabrics.
Week 10: Processes available, the effect of variables in the bonding process
Week 11: Knitting technology and the latest developments
Week 12: Braiding technology and latest developments
Week 13: Translation of various articles in non-wovens technology
Week 14: Summary and discussions
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
ING 302 English for Business
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 3
Coordinator
Assist.Prof.Dr. İlhan ÖZEN
Web Page :
Developing skills to organize data and writing technical assays, Filling application forms, Preparing
personal biography, Application letters, Constructing business letter and documents, Preparation of
scientific documents and reports, Proposal writing for various projects related to area of textile science
and technology.
TEXTBOOK:
GRADING:
1. Midterm ( 40 %)
2. Final exam ( 60 %)
TOPICS: (14 Weeks)
(1. Hafta) Important notes about Tenses
(2. Hafta) Modal Auxiliaries and Conditional Sentences
(3. Hafta) Active and Passive Clauses Hafta)
(4. Hafta) Gerunds and Relative Clauses
(5. Hafta) Conjunctions, Prepositions and Punctuations
(6. Hafta) Application steps for a job or scholarship
(7. Hafta) Cover Letters
(8. Hafta) Letter of Recommendation
(9. Hafta) Interm Exam
(10. Hafta) Statement of Purpose
(11. Hafta) Acceptance and rejection letter, Accepting and Declining an Offer
(12. Hafta) Writing down inquiry letter and Status inquiry letter
(13. Hafta) Writing down Business Letters and E-mail Communications
(14. Hafta) Interview basics
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
KY 302 Quality Control at Textile and Clothing
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Assoc. Prof.Dr. Nazım PAŞAYEV
Web Page :
Quality Control at Textile and Clothing covers basic definition of quality, classification of the defects,
quality control systems in clothing companies, raw material inspection, in-process inspection, final
inspection and seven tools of quality control.
Undergraduate Students
Learning techniques of ready-made clothing production. Designation and practicing new technological
procedures. Formation of product development abilities.
COURSE PROCEDURE:
Class courses: 2 hours theoretical principles in a week. Class out practical studies.
TEXTBOOK:
Lecturer notes
GRADING:
1. Midterm ( 40 %)
SUGGESTED BIBLIOGRAPHIES:
 Nazarova A.İ., Kulikova İ.A., Savostiçskiy A.V. Teknologiya şveynık izdeliy po individualnım
zakazam. Moskva, Legprombıtizdat, 1986, 336s.
 Truhanova A.T. Osnovı teknologii şveynogo proizvodstva. Moskva, Vısşaya şkola, 2002, 336s.
 Spravoçnik po podgotovke i raskroyu materialov pri proizvodstve odejdı. Moskva, Legkaya
İndustriya, 196980, 272s.
 Savostiçskiy A.V. i dr. Teknologiya şveynık izdeliy. Moskva, 1982, 440s.
 Laboratornıy praktikum po teknologii şveynık izdeliy. Moskva, Legkaya İndustriya, 2007, 271s.
 Şarşov V.S. Vvedeniye v teknologiyu şveynogo proizvodstva. Kiyev, Vişa şkola, 1983, 136s.
 Promılrnnaya teknologiya odejdı. Moskva, Legprombıtızdat, 1988, 641s
 Perşina L.F., Petrova S.V. Teknologiya şveynogo proizvodstva. Moskva, Legprombıtızdat,
1991, 417s
 Handbuch wissenschaftliche arbeitsgestaltung. Berlin, 1977, 214s.
TOPICS: (14 Weeks)
(1. week)Beginning procedures of clothing basic parts
(2. week)Processing of pockets. Splitting pockets with cover and without cover
(3. week) Processing of pockets. Attaching pockets. Pockets in seams.
(4. week) Processing of pockets. Inside pockets.
(5. week) Technological procedures of loin basis clothing. Skirt and trousers.
(6. week) Processing of front and back of shoulder basis clothes.
(7. week) Processing of clothing collar and combining with product.
(8. week)Processing of clothing arms and combining with product
(9. week)Processing of clothing undercoat and combining with product
(10. week) Techniques of light clothing production. Beginning procedures of light clothing
(11. week) Processing of light clothing pockets
(12. week) Processing of light clothing arm and collar hollows, processing of arm and collar and
combining with product.
(13. week) Processing of yoke, lapel, side, shoulder and bottom cutaways in light clothes.
(14. week) Properties of clotting production from knitting clothes, leather and fur.
OUTCOME COVERAGE:
 Apply math, science and engineering knowledge
 Design a system, component or process to meet desired needs
ERCIYES UNIVERSITY
Course Title
KY 304 Clothing Technology II
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Web Page :
Principles of clothing manufacture, patterning, preparation and cutting, preparation of clothing
articles, evaluation of clothing manufacturing system, definition of clothing firm, sewing unit, ironingpackaging unit, definition of auxiliary equipment and their adjustment.
Learning quality and factors which affect quality, techniques of quality control, objectives of total
quality management, standarts and standartization, quality costs.
COURSE PROCEDURE:
TEXTBOOK:
Lecturer notes
GRADING:
1. Midterm ( 40 %)
 Bülent Kobu. Üretim Yönetimi. İstanbul. Avcıol Basın Yayın. 2003
 Evans J.R.-Lındsay W.M. The Management and Control of Quality. South Western, 2002
 Evans J.R.-Dean J.W. Total Quality. South Western, 2000
 Yefimov V.V. Upravleniye kaçestvom. Ulyanovsk, 2000
 Juran’s Quality Handbook. McGraw-Hill, 1998
 Ponomaryev S.V. vb. Upravleniye kaçestvom produksii. Moskova, Standartı i kaçestvo, 2005
 Upravleniye kaçestvom produksii. Moskova, Novoye Znaniye, 2002.
 Mazur İ.İ., Şapiro V.D. Upravleniye kaçestvom. Moskova, Vısşaya Şkola, 2003.
TOPICS: (14 Weeks)
(1. week) Position of quality control in production system. Definition of quality. Basic components
of quality.
(2. week) Objectives and benefits of quality control. Total quality control
(3. week) Organization of quality control
(4. week) Statistical quality control
(5. week) Inspection in quality control system. Functions and types of inspection
(6. week) Evaluation and analysis of inspections. Decision process in inspection.
(7. week) Exampling in inspection. Methods of taking example.
(8. week) Management of total quality and its objectives
(9. week) Basic components of total quality management
(10. week – 11. week) Tools of total quality management
(12. week) Critical success conditions of TKY procedures.
(13. week) Quality control techniques and standards
(14. week) ISO standards
OUTCOME COVERAGE:
 Apply math, science and engineering knowledge
ERCIYES UNIVERSITY
KY 305 Management and Control in Textile and
Clothing Systems
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Assoc. Prof. Dr. Nazım Paşayev
Principles of management of textile and clothing mills, the fundamental economical approach for
improving textile production company assembly line balancing, preparing production plans.
Course Title
Learning management approaches in textile and ready-made clothing plants.
COURSE PROCEDURE:
TEXTBOOK:
Lecturer notes
GRADING:
1. Midterm (40 %)
 Bülent Kobu. Üretim Yönetimi. Avcıol Basım Yayın. İstanbul, 2003
 Michael H. Mescon, Michael Albert, and Franklin Khedouri. Management. 1988
 Claude S. George. The History of Management Thought, 1972
 Sevil Kişoğlu, Birsen Çileroğlu. Üretim Planlaması, 1981
 Klyukovkin V.N. İffektivnost upravleniya proizvodstvom v legkoy promışlennosti. Moskova, 1981
 Apıktina M.N., Grızlova T.A. Organizasiya i planirovaniye proizvodstva na predpriyatiyah şveynoy
promışlennosti. Moskova, 1974
TOPICS: (14 Weeks)
(1. week) Basic concepts of production management
(2. week) Production systems
(3. week) New product strategies. Factors which affect new product success
(4. week) Demand estimations and methods of demand estimations
(5. week) Technology selection
(6. week) Selection of place for plant
(7. week) Plant arrangement
(8. week) Capacity planning
(9. week)Zero profit point analysis and its procedures
(10. week)Balancing of production line
(11. week)Stock control
(12. week) Working analysis
(13. week) Working analysis
(14. week) Production planning and control
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
KY 307 Clothing Technology I
LOCAL CREDIT: 3
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 5
Coordinator
Web Page :
Clothing Technology covers basic information on clothing technology, the sections of clothing factory,
grading, spreading, cutting methods, seam types, sewing machineries and the use of component and
trims.
General information of ready-made clothing production, learning production technology, practiced
production procedure and hardware types in different sections of ready-made clothing plants.
COURSE PROCEDURE:
TEXTBOOK:
 Nazım Paşayev. Genel Konfeksiyon Teknolojisi. BİRSEN Yayınevi. İstanbul, 2008.
GRADING:
1. Midterm ( 40 %)
 Gülseren Kurumer. Konfeksiyon Teknolojisi. İzmir, 2008.
 Mehmet Yakartepe, Zerrin Yakartepe. Tekstil ve Konfeksiyon Ensiklopedisi. İstanbul, Tekstil
Araştırma ve Danişmanlık Merkezi, 1992.
 Truhanova A.T. Osnovı teknologii şveynogo proizvodstva. Moskva, Vısşaya şkola, 2002, 336s.
 Paşayev N.P. Tikiş müessiselerinin layihelendirilmesi. Bakı, 2003, 200s.
 Spravoçnik po podgotovke i raskroyu materialov pri proizvodstve odejdı. Moskva, Legkaya
İndustriya, 196980, 272s.
 Savostiçskiy A.V. i dr. Teknologiya şveynık izdeliy. Moskva, 1982, 440s.
 Buzov B.A., Modestov T.A., Alımenkova N.D. Materialovedeniye şveynogo proizvodstva.
Moskva, 1978, 480s.
 Laboratornıy praktikum po teknologii şveynık izdeliy. Moskva, Legkaya İndustriya, 2007, 271s.
 Franç V.Y. Şveynıye maşinı. Moskva. ACADEMA, 2004, 160s.
 Domojirov Y.A., Polukin V.P. Vnutriproçessnıy transport şveynık predpriyatiy. Moskva,
Legprombıtizdat, 1987, 200s.
 Şarşov V.S. Vvedeniye v teknologiyu şveynogo proizvodstva. Kiyev, Vişa şkola, 1983, 136s.
 Bereznenko N.P. Razrabotka energosbereqayuşşey teknologii i povı-şeniye urovnya kaçestva
şveynık izdeliy na operasiyak vlajno-teplovoy obrabotki. Kiyev, 1986, 394s.
 Orlov İ.V., Dubrovnıy V.A. Osnovı avtomatizasii i teplovoy obrabotki şveynıx izdeliy. Moskva,
1974, 230s.
Migalco İ.İ., Tretyakova L.İ., Endre Nemet, Boglarka Eperşi. Termi-çeskiye proçessı v şveynoy
promışlennosti. Kiyev “Technika” – Budapest “Müszaki”, 1987, 213s.
 Kuzmiçev V.Y., Gerasimova N.A. Teoriya i praktika proçessov skleivaniya detaley odejdı.
Moskva, ACADEMA, 2005, 256s.
 Handbuch wissenschaftliche arbeitsgestaltung. Berlin, 1977, 214s.
TOPICS: (14 Weeks)

(1.
week) Definition, characteristics of ready-made clothing industry and its development in our
country
(2. week) Functions of clothing. Classification of clothing. Demands on ready-made clothing
products
(3. week) Information about preparation of model and pattern. Inside and outside structure of
clothing.
(4. week) Ready-made clothing plants. Technologic procedures in production preparation of
models department. Preparation of Marker Planning.
(5. week) Technological procedures and hardware in preparation of cutting clothing department.
(6. week) Technological procedures and hardware in flattening and cutting department
(7. week)Seams. Types of seam. Classification of seams. Seam fibers.
(8. week – 9. week) Classification of seam machines. Structure, basic and assistant organs of seam
machines. Small mechanization arrangements. Mechanization of seam formation. Fiber
expenses in seams.
(10. week – 11. week) Thermal properties of textile materials. Damp thermal procedures.
Mechanism, hardware and parameters of thermal procedures.
(12. week) Sticking technology in ready-made clothing production. Sticks and sticky materials.
Mechanism, hardware, formation and parameters of sticky combinations.
(13. week) Welding technology in ready-made clothing production. Welding methods. Mechanism,
formation, hardware and parameters of welding combinations.
(14. week) Work health and work security in ready-made clothing production.
OUTCOME COVERAGE:

ERCIYES UNIVERSITY
Course Title
KY 308 Computer Aided Pattern Design
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Web Page :
Basic principles of CAD, computer assisted pattern preparation and applications.
Learning designation, simulation, seriation, cutting placing plans desining of clothes patterns in CAD
systems. Learning programmes and hardwares of CAD systems.
COURSE PROCEDURE:
TEXTBOOK:
Lecturer notes
GRADING:
1. Midterm (40 %)
 Assyst Bullmer sistemi Kullanım klavuzuları
 Vidya sistemi Kullanım klavuzuları
 TETRA CAD sistemi Kullanım klavuzuları
TOPICS: (14 Weeks)
(1. week)General information about ready-made clothing CAD-CAM systems
(2. week – 3. week – 4. week – 5. week ) Clothes pattern designation with Assyst Bullmer system
(6. week) Seriation of patterns
(7. week) Designing of Pastal planning
(8. week – 9. week) Simulation in Vidya system
(10. week – 11. week )Clothes pattern design with TETRA CAD system
(12. week) Seriation of patterns
(13. week) Designing Marker plan
(14. week) Working with digitizer and plotter
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
KY 401 Time and Work Study at Textile
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Assist. Prof.Dr. Mustafa TUTAK
Web Page :
Definition and history of time and work study, fundamental concepts of work study, data
classifications, time measurements, quantification of work, evaluation of work, methods of work
evaluations, teaching and orientation of work.
1. understand productivity in textile process
2. appreciate importance of work arrangement
TEXTBOOK:
 M. Ercan, “Tekstilde İş ve Zaman Etüdü”, EU yayınevi, İzmir, 1982
GRADING:
1. Midterm ( 40%)
TOPICS: (14 Weeks)
(1st Week) Introduction and history of time and work study
(2nd Week) Basic concepts of time and work study
(3rd Week) Objectives of time and work study
(4th Week) Benefits of time and work study
(5th Week) Explanation of working system
(6th Week) Work routine, work productivity, work explanation
(7th Week) Midterm exam
(8th Week) Ergonomi
(9th Week) Determination of data
(10th Week) Recording of time
(11th Week) Forming of work
(12th Week) Assesmenting of work
(13th Week) Teaching of work
(14th Week) Application of time and study on textile factory
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TD 101 Turkish I
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 2
Coordinator
Lütfiye GÜVENÇ
Importance of language in social life. The history of Turkish language. The situation of Turkish in the
World. The properties of Turkish and the expressions techniques in Turkish. The grammar rules of
Turkish.
1. use punctation marks, formal writes etc.
2. analyze status of Turkısh Turkey on other Turkic dialects.
TEXTBOOK:
1- Muharrem Ergin, Türk Dili, Bayrak Yay., İstanbul.
2- Güncel Türkçe Sözlük, Türk Dil Kurumu, Ankara.
3- Yazım Kılavuzu, Türk Dil Kurumu, Ankara.
4- Şerif Aktaş-Osman Gündüz, Yazılı ve Sözlü Anlatım, Ankara.
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
1- İstiklal Marşı and Atatürk’s Address To Turkish Youth.
2- What’s language, Turkish language and culture; culture’s components.
3- Languages in world, Turkish language places in world’s languages and expansion area.
4- Work of art examine: Poetry.
5- Turkish phonetic.
6- Syllable structure in Turkish, accent, voice events, voice harmony.
7- The historical period of Turkish language.
8- Mid-term exam.
9- Written expression shape.
10- Work of art examine: Tale.
11- Today’s problems of Turkish language I.
12- Prepare scientific writings, form writings.
13- Spelling rules.
14- Punctuation marks.
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TD 102 Turkish II
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 2
Coordinator
Lütfiye GÜVENÇ
Compositions, verbal explanations, articles and reports, literatur
1. analyze today’s problems of Turkish language and use rhetorical analyses.
2. know phonological features of modern Turkish and Turkish phonetics, Turkish morphology.
3. write Turkish compositions.
4. analyze rhetorical texts.
TEXTBOOK:
1- Muharrem Ergin, Türk Dili, Bayrak Yay., İstanbul.
2- Güncel Türkçe Sözlük, Türk Dil Kurumu, Ankara.
3- Yazım Kılavuzu, Türk Dil Kurumu, Ankara.
4- Şerif Aktaş-Osman Gündüz, Yazılı ve Sözlü Anlatım, Ankara.
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
1- Rules of writing, kind of compositions
2- Turkish morphology, kind of words
3- Rhetorical practices
4- Novel analysis
5- Turkish syntax.
6- Oral compositions.
7- Poem analysis.
8- Midterm Exam.
9- Grammatical analysis and practices.
10- Today’s problems of Turkish language II
11- Story analysis.
12- Descriptions of communication, importance of oral and written communications in our life.
13- Rhetorical practices
14- Written composition practices.
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TEKP 201 Introduction to Polymer Chemistry
LOCAL CREDIT: 3
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 6
Coordinator
Synthesis, production, chemical and mechanical properties of synthetic fibres. Comparison of
conventional and high performance fibres. Industrial applications.
At the end of this course, students will be able to: gaib knowledge about the basic foundations of
polymer chemisty, importance of polymers in daily life and textile industry, properties of polymers.
TEXTBOOK:
1-Texbook of Polymer Science, Fred W. Billmeyer
2-Physical Properties of Textile Fibres, W.E. Morton and J.W.S. Hearle
3-Handbook of Textile Fibres (MMF Fibers), J. Gordon Cook
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
(1. Week) Referances, lecture contents, the importance of polymer chemsitry, development of
polymer chemsitry, production and consumption of polymers in Turkey and in the World
(2. Week) Basic polymer definitions and terms:
(3. Week) Classification of polymer, homopolymer, copolymer, copolymer types, Thermoplastic
and thermosetting polymers, resins, elastomers.
(4. Week) Naming of polymers, rawn materials used in the polymerization of polymers
(5. Week) Polymer synthesis
(6. Week) Properties of polymer based fibres
(7. Week) Mid-term examination
(8. Week)Thermal properties of polymers, glass transition temperature.
(9. Week) Molecular structure of polymer based fibres, kristalization, factors affecting
crystallization, Calculation of crystallinity
(10. Week) Mechanics of crystallization, drawing, molecular elasticity
(11. Week) Polymer fibre Technologies, melt spinning, gel-spinning and physical and chemical
properties of fibres produced from such methods
(12. Week) Solutin spinning methods, physical and chemical properties of fibres produced from
such methods
(13. Week) Jelden lif çekim yöntemi ve lif özellikleri
(14. Hafta) High Performance fibre fibre production Technologies based on chemical methods
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TEKP 301 Wet Processing in Textile Technology I
LOCAL CREDIT: 3
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 6
Coordinator
Assist.Prof.Dr. Mustafa TUTAK
Web Page :
Bleaching on fiber, yarn and fabric, Mercerization, sizing, remove of sizing agent, Dyeing, Printing,
Finishing, and Design of application.
1. understand the theory and practical aspects of basic wet treatment of textile materials such as
fibres, yarns, fabric and apparel
2. get experience on water and other solvent process of textiles.
TEXTBOOK:
 Işık Tarakçıoğlu, “Tekstil kimyası ve terbiyesi 1,2,3” , İzmir
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
(1st Week) An introduction to wet processing in textiles and importance
(2nd Week) Pretreatment of textiles
(3rd Week) Application methods
(4th Week) Washing and drying
(5th Week) Coloration
(6th Week) Natural and synthetic fibers dyeing
(8th Week) Pirinting process
(9th Week) Natural fibers printing
(10th Week) Synthetic fibers printing
(11th Week) Finishing process
(12th Week) Mechanical finishing process
(13th Week) Chemical finishing process
(14th Week) Recent development of wet processing
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TEKP 302 Dye Chemistry
LOCAL CREDIT: 4
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 6
Coordinator
Assist. Prof.Dr. Mustafa TUTAK
Web Page :
Manufacturing and consumption situation of dyes, dye and colour theories, relationship between
object colours and chemical structures, characteristics of textile dyes, yarn fixage mechanism,
classification according to chemical structure and dissolution, basic, direct, acid, metal (mordant) and
metal complex, reactive, sulphur, dispersion, pigment dyes and their characteristics, organic dye
manufacturing, ntrogenation, reduction, sulphonation reactions, nitrobenzene production from
benzene, sulphanilic acid production from aniline and sulphuric acid, azoic dyes.
1. understand basic principles of colour chemsitry and dyes.
TEXTBOOK:
 Klaus Hunger, “Industrial Dyes”, Wıley WCH, Germany, 2003
 PF Gordon, “Organic Chemistry in Colour”, Springer Verlag, Berlin, 1983
 David Varning, Geoffrey Hallas, “The Chemistry and Application of Dyes”, Plenum Press, New York,
1990
GRADING:
1. Midterm (40 %)
TOPICS: (14 Weeks)
(1st Week) Historical perspective of dyes
(2nd Week) Classification systems for dyes
(3rd Week) Azo and antraquinone dyes
(4th Week) Sulfur, metal complex and cationic dyes
(5th Week) Reactive dyes
(6th Week) Disperse dyes
(7th Week) Midterm Exam
(8th Week) İndigoid dyes and denim
(9th Week) Natural fiber dyeing
(10th Week) Fastness properties of dyes
(11th Week) Optical whitening agents
(12th Week) Dyeing of special textile materials
(13th Week) Recent development in textile dyes
(14th Week) Environmental and healty aspect of dyes
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TEKP 305 Chemical Textile Testing
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Assist. Prof. Dr. Mustafa TUTAK
Techniques used in the analysis of fibres, textile chemicals and textile processes, infra-red, UV-visible
spectroscopy, chromatography, viscometer, chlorometric and mechanic thermal analysis.
1. understand chemical analysis of textiles
2. appreciate importance of fiber types
TEXTBOOK:
 Q Fan, “Chemical testing of textiles”, Woodhead publishing, 2005 USA
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
(1st Week) Acknowledgement of chemical testing labroatory
(2nd Week) Method of chemical analysis
(3rd Week) Chemical test methods according to quality control
(4th Week) Application of fiber chemical test
(5th Week) Qantity fiber analysis
(7th Week) Analysis of impurity
(8th Week) Calculation of acid and alkali on fibers
(9th Week) Analyisis of metal on fiber
(10th Week) Analysis of pretreatment process
(11th Week) Analysis of dyeing process
(12th Week) Analysis of printing process
(13th Week) Analysis of finishing process
(14th Week)Recent development of chemical analysis of textile fibers
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
TEKP 307 Treatment and Dyeing of Natural and
Regenerated Fibres
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Assist. Prof. Dr. Asım Davulcu
Dyeing mechanism of cellulose fibres, Dyeing mechanism of protein fibres, Direct dyes, alkylsulfonates,
sulphur dyeing, reactive dyeing, pigment dyeing, Pretreatment methods for cotton fabrics (singeing,
desizing, bleaching, mercerization and enzymatic processes), Pretreatment methods for protein fabrics.
1. to understand the treatment and dyeing of natural and rejenerated fibres
TEXTBOOK:
 ANİŞ, P. 1998. Tekstil Ön terbiyesi, Alfa Kitabevi Bursa, 203s.
 SHORE, J., 1995, Cellulosics dyeing, The Alden Pres, Oxford, 396s.
GRADING:
1. Homework (10 %)
2. Midterm (30 %)
TOPICS: (14 Weeks)
(1st Week) Introduction to dyeing technology
(2nd Week) Dyeing mechanism of cellulose fibres
(3rd Week) Pre-treatment of cotton fabrics
(4th Week) Pre-treatment of rejenereated cellulocics.
(5th Week) Dyeing cotton with reactive dyes
(6th Week) Dyeing cotton with substantive dyes
(7th Week) Dyeing cotton with vat dyes
(8th Week) Dyeing cotton with discontinuous method.
(9th Week) Dyeing cotton with continuous method.
(10th Week) )Dyeing rayon fibres
(11th Week) Dyeing acetate fibres
(12th Week) Pretreatment methods for protein fibres
(13th Week) Dyeing wool fibres
(14th Week) Dyeing of linen, jut and other natural fibres
Course Title
OUTCOME COVERAGE:
 Identify, formulate, and solve engineering problems
ERCIYES UNIVERSITY
TEKP 312 Treatment and Dyeing of Synthetic
Fibers
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Assist. Prof.Dr. Asım DAVULCU
Web Page :
Dyeing mechanism of synthetic fibres, Dyeing of PA fibres, acid dyes, chrome dyes, metal complex
dyes, PES dyeing, disperse dyeing – carrier dyeing, HT dyeing, thermal dyeing, PAC fibre dyeing, Blends
dyeing (PES/cotton dyeing, PES/wool and exc.), Pretreatment methods for synthetic fabrics.
 Perkins, W.S., 1996, Textile Coloration and Finishing, Coralina academic Pres, 249s.
1. understand the treatment and dyeing of synthetic fibres
TEXTBOOK:
 Perkins, W.S., 1996, Textile Coloration and Finishing, Coralina academic Pres, 249s.
GRADING:
1. Homework (10 %)
2. Midterm ( 30 %)
TOPICS: (14 Weeks)
(1st Week) İntroduction to dyeing technology
(2nd Week) Pretreatment methods for synthetic fabrics
(3rd Week) Dyeing mechanism of synthetic fibres
(4th Week) Dyeing of PA fibres acid dyes and dispers dyes.
(5th Week) Dyeing of PA fibres metal complex dyes
(6th Week) PA/ acetate Blends dyeing
(7th Week) PES dyeing with dispers dyes.
(8th Week) PES dyeing with carier
(9th Week) PES thermal dyeing
(10th Week) PES dyeing dyeing in alkali bath
(11th Week) PAC Fibre dyeing
(12th Week) PAC/Wool Blends dyeing
(13th Week) PES/Wool Blends dyeing
(14th Week) PES/Cotton Blends dyeing
OUTCOME COVERAGE:
Course Title


ERCIYES UNIVERSITY
TEKP 409 Production and Cost Calculations in
Textile Finishing
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Assist. Prof.Dr. İlhan ÖZEN
Web Page :
General structure of turkish textile and apparel industry, general information on cost, basic terms and
definitions, factors affecting productions costs, classification of costs, dsitribution of costs, material
costs, labor costs and general production costs, Some important administrative accounting methods,
which are tools for decision-making, control, and evaluation of success, calculation of standard costs,
Calculation of activity-based costs, cost calculations in textile finishing/dyeing
Bachelor students
1. evaluate financial situations and periodical activities of textile companies and analyse systematically
the factors generating and affecting production costs,
2. calculate unit costs,
3. use information related to production costs for decision-making and planning process
TEXTBOOK:
1) Önder E., Maliyet Muhasebesi Ders Notları, İTÜ Tekstil Müh. Bölümü Sunumlar, 2007
2) Yakartepe Z., Yakartepe M., Genel Tekstil Terbiyesi, Tekstil ve Konfeksiyon Araştırma Merkezi
Yayınları, 2003
3) Mehta N., Energy Saving in Textile Processing, Harish Enterprise Pvt. Ltd.
4) Saldıray B., Tekstil Endüstrisi İçindeki Konumunu Belirlerken Tasarımcının Anlaşılmasının Gerekliliği
5) Kaplan E., Koç. E., Türk Tekstil Sanayinde Enerji Kullanımının Genel Değerlendirmesi, Ç.Ü., Müh. MM.
Fak. Dergisi, Cilt 19, Sayı 2, 97-111, Aralık 2004
6) Çakıcı C., Tekdüzen Hesap Planında Standart Maliyet Yöntemi Uygulaması, Marmara Üniversitesi,
İ.İ.B.F. İşletme Bölümü
7) Standart Maliyet Sistemi, http://www.webmuhasebe.com/standartmaliyet.htm
8) Coşkun A., Standart Maliyetler ve Sapma Analizleri, İşletme Yönetimi Muhasebesi Ders Notları,
www.alicoskun.net, 2007
9) Can A.V., Maliyet Muhasebesi Ders Notları
10) Sekizinci Beş Yıllık Kalkınma Planı, Tekstil ve Giyim Sanayii Özel İhtisas Komisyon Raporu, T.C.
Başbakanlık DPT, 2001
11) 9. Kalkınma Planı, Tekstil Deri ve Giyim Sanayi Özel İhtisas Komisyon Raporu,, T.C. Başbakanlık DPT,
2007
12) Tekstil, Hazır Giyim, Deri, ve Deri Ürünleri Sektörlerine Yönelik Strateji Belgesi, 2008
13) Kurşunel, F., Alkan A.T., Büyükşalvarcı, A., Faaliyet Tabanlı Maliyet/Yönetim Sisteminin İşletme Etkin
Karar Verme Sürecine Etkisi, Selçuk Üniversitesi İktisadi ve İdari Bilimler Fakültesi İşletme Bölümü
Course Title
14) İşgüden B., Faaliyet Tabanlı Maliyetleme ve Kısıtlar Teorisinin Karşılaştırılması, Balıkesir Üniversitesi
Bandırma İ.İ.B.F., İşletme Bölümü,2008
15) Alkan A.T., Faaliyet Tabanlı Maliyet Sistemi ve Bir Uygulama
16) Kaygusuz, S.Y., Faaliyet Tabanlı Maliyet Yöntemine Göre Genel Üretim Giderleri Fark Analizi
Uludağ Üniversitesi, İİBF
17) Erden S.A., Faaliyet Tabanlı Maliyetleme ve Bağımsız Denetim Firmaları Örneği, Kocaeli Üniversitesi
İİBF
18) Coşkun A., Faaliyet Tabanlı Maliyet Sistemi, Maliyet Muhasebesi Ders Notları, www.alicoskun.net,
2007
19) Coşkun A., Maliyet ve Yönetim Muhasebesine Giriş Ders Notları, www.alicoskun.net, 2007
20) İlter H.M., İhracatçı KOBİ’ler için Maliyet Analizleri, İTO 2002
21) Yılmaz, R., Baral G., Kurumsal Performans Yönetiminde Sürece Dayalı Faaliyet Tabanlı Maliyetleme
22) Altunay, M.A., Çağdaş Maliyetleme Sistemlerinden Faaliyet Tabanlı Maliyetleme Sistemi ve Bir Tekstil
İşletmesinde Uygulanması, T.C. Süleyman Demirel Üniversitesi, Sosyal Bilimler Enstitüsü, Y. Lisans Tezi,
Isparta 2007
23) Uzunoğlu H., Ünal İ., Türk Hazır Giyim ve Tekstil Sektörünün 2008 Yılı Rekabet Durumu (I), Ar-Ge
Bülten-Sektörel, Kasım 2008
24) Uzunoğlu H., Türk Hazır Giyim ve Tekstil Sektörünün 2008 Yılı Rekabet Durumu (II), Ar-Ge BültenSektörel, Aralık 2008
25) Tekstil Sektöründe Sorunlar ve Çözüm Önerileri, ADSİAD 2008
GRADING:
1. Midterm ( 40 %)
Miscellaneous:
At least 70% of the course program must be attended.
TOPICS: (14 Weeks)
(1st Week) General Introduction
(2nd Week) General Introduction of Turkish Textile Industry, Cost Items
(3rd Week) General Info on Costs, Cost Systems, Classification of Costs
(4th Week) Classification of Costs (continued)
(5th Week) Material Costs: : Its Types, Determination of Its Amount, Wage Systems, Problems
(6th Week) Labor Cost: Its Types, Determination of Its Amount, Wage Systems, Problems
(7th Week) Labor Cost: Its Types, Determination of Its Amount, Wage Systems, Problems
(Continued)
(8th Week) General Production Costs: Its Types, Cost-Activity Relationships, Activity Standards
(9th Week) General Production Costs: Its Types, Cost-Activity Relationships, Activity Standards
(Continued)
(10th Week) Midterm
(11th Week) Calculation of Standard Costs
(12th Week) Activity-based Costing / Cost Analysis – Break-even Point Analysis
(13th Week) Calculation of Productions Costs in Textile Finishing Mills (Bleaching, Dyeing, Printing)
(14th Week) Calculation of Productions Costs in Textile Finishing Mills (Drying), Comparison of
Various Costs
OUTCOME COVERAGE:
Applying math, science and engineering knowledge
X
Identifying, formulating, and solving textile engineering problems
X
Working ability in interdisciplinary teams
X
Having contemporary knowledge in the field of textile technology/finishing/apperal
X
ERCIYES UNIVERSITY
Course Title
TEKP 411 Environmental Friendly Production
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Assist. Prof.Dr. Asım DAVULCU
Web Page :
Understanding the environmental approach in textile industries, Development of ecological textile
products, Environmentally friendly textile production, Life-cycle assessment, Reasoning the production
of textile related materials from an ecological and environmental perspective, Reuse and recycling of
textile wastes.
1. Understand environmental aproach in textile industries
TEXTBOOK:
 UNEP (United Nations Environment Programme) Yayını, 1994, The Textile Industry and The
Environment, Paris, France.
 Hansen, J., Laursen, S. E.,1997, Environmental Assessment of Textiles, DTI (Danish Technological
Institute) Clothing and Textile Yayın,.Danimarka.
 Hansen, J., 1997, Cleaner Production Industrial Sector Guide Textile Industry, UNEP (United Nations
Environment Programme) Yayını, Paris, France
 Hansen, J., 1996, BAT for Textile Industry, DTI (Danish Technological Institute) Clothing and Textile
Yayın,.Danimarka
GRADING:
1. Homework (10 %)
2. Midterm ( 30 %)
TOPICS: (14 Weeks)
(1st Week) Determination of environmental approach
(2nd Week) Understanding the environmental approach in textile industries
(3rd Week) impurities in textile treatment processes
(4th Week) Environmental approach for sezing and desizing processes.
(5th Week) Environmental approach for scouring processes
(6th Week) Environmental approach for bleaching processes
(7th Week) Environmental approach for mercerizing processes
(8th Week) Combination of tratment processes
(9th Week) Environmentally dyeing cotton with reactive dyes
(10th Week) Environmentally dyeing with discontinuous method
(11th Week) Environmentally dyeing with continuous method
(12th Week) Environmentally dyeing of protein fibers.
(13th Week) Environmentally dyeing of synthetic fibers
(14th Week) Smart textiles
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TEM 104 Physics I
LOCAL CREDIT: 3
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4,5
Coordinator
Lecturer Dr. Mehmet KIŞ
Erciyes University, Faculty of Arts and Sciences Department of Physics, 38039 Kayseri, TURKEY
Physics and measurement, vectors, one dimensional motion, two dimensional motion, the Newton’s
laws of motion, circular motion, work and energy, potential energy and the conservation of energy,
linear momentum and collisions, rigid body motion, rotational motion, angular momentum and tork,
static equilibrium and elasticity, harmonic oscillations, the law of gravitation.
Objective of this course is to explain physics principles and laws. Thereby, mechanics law, the principles
of work, energy, momentum and tork will be given.
TEXTBOOK:
1. Raymond A. Serway, For Scientists&Engineers With Modern Physics I, Palme Yayıncılık, 2002
2. Fredrick J. Keller, W. Edward Gettys, Malcolm J. Skove, Physics I, Literatür Puplication, 1996.
3. Frederick J. Bueche, David A. Jerde, principle of Physics I, Palme Puplication, 2000.
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
(1st Week) : Physics and measurement
(2nd Week): Vectors
(3rd Week) : One dimensional motion
(4th Week) : Two dimensional motion
(5th Week) : The Newton’s laws of motion
(6th Week) : Circular motion
(7th Week) : Work and energy
(8th Week) : MID-TERM EXAM
(9th Week) : Potential energy and the conservation of energy
(10th Week): Linear momentum and collisions
(11th Week) : Rigid body and Rotational motion
(12th Week) : Angular momentum and tork
(13th Week) : Static equilibrium and elasticity,
(14th Week) : Harmonic oscillations and the law of gravitation.
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TEM 106 Statics
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 5
Coordinator
Assist. Prof. Dr. Oğuz DEMİRYÜREK
E-mail: demiryü[email protected] Web Page :
Vectors, Statics of particles. Rigid bodies. Equivalent systems of forces. Equilibrium of rigid bodies.
Centroids and centers of gravity. Analysis of structures. Forces in beams and cables. Moments of
inertia. Friction. Method of virtual work.
Educating and investigating the behaviour and equilibrium conditions of the rigid bodies exposed to
various forces.
TEXTBOOK:
 “Statics”, BEER P. F. & JOHNSON E. R, (Çeviri), Birsen Yayınevi, İstanbul
GRADING:
1. Midterm (40%)
2. Final exam (60%)
TOPICS: (14 Weeks)
(1st Week) Statics of particles, vectors
(2nd Week) Forces, Rigid bodies
(3rd Week) Equivalent systems of forces
(4th Week) Equilibrium of rigid bodies,
(5th Week) Equilibrium of rigid bodies, Friction
(6th Week) Mid-Term Exam.
(7th Week) Centroids and centers of gravity
(8th Week) Analysis of structures
(9th Week) Analysis of structures
(10th Week) Forces in beams and cables
(11th Week) Forces in beams and cables
(12th Week) Moments of inertia.
(13th Week) Method of virtual work.
(14th Week) Method of virtual work.
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TEM 107 An Introduction to Textile Engineering
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 2
Coordinator
Prof. Dr. Abdülkadir BİLİŞİK
E-mail: [email protected], Web Page :
Introducing textile engineering, basic fibers in use textile, fiber measurement units, fiber formation
systems, yarn and fabric measurement units, textile finishing and dying, fundamental of textile design,
apparel and management, textile end-uses.
No previous course necessary
1. understand basic textile fiber materials, formation technologies and design depending upon
end-use requirements
2. understand textile products to quantify for advanced textile engineering courses
TEXTBOOK:
 Textiles: Fiber to fabric, B. P. Corbman, McGraw – Hill, 6 th Ed, 1983.
 Joseph’s Introductory Textile Science, P. B. Hudson, A. C. Clapp and D. Kness, Harcowt Brace, 6
th Ed., 1993.
GRADING:
1. Homework (20 %)
2. Midterm (20 %)
TOPICS: (14 Weeks)
(1st Week - 2nd Week) Basic definition of textile, end-use of all textile and textile related products.
(3rd Week - 4th Week) Basic principal of natural fibers and man-made fibers, fiber measurement
units and quantifications.
(5th Week - 6th Week) In general, fiber formation techniques, yarn, weaving and engineering
quantifications.
(7th Week - 8th Week) Fiber formation techniques, knitting, nonwoven, braiding and engineering
quantifications.
(10th Week - 11th Week) Basic design concepts for formation systems.
(12th Week - 13th Week - 14th Week) Textile finishing and dying, apparel, textile and apparel
managements.
OUTCOME COVERAGE:


ERCIYES UNIVERSITY
Course Title
TEM 110 Fibre Science
LOCAL CREDIT: 3
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 5
Coordinator
Production and properties of natural and synthetic fibers (cotton, linen, wool, silk, viscose, acetate,
polyamide, polypropylene, polyester, polyacrylic, elastomeric, etc.). End-uses of fibers.
At the end of this course, students will be able to: learn the basics of natural, regenerated cellulose
fibres, synthetic fibres, high performance fibres, properties and applications of such Fibres.
TEXTBOOKS:
1. Mustafa Harmancıoğlu, ‘Tekstil Maddeleri-II’, Ege Üniversitesi Matbaası, 1981
2. Mehmet Saçak, ‘Lif ve Elyaf Kimyası’
3. Necdet Seventekin, ‘Kimyasal Lifler’
4. J. Gordon Cook, ‘Handbook of Textile Fibres: NATURAL FIBRES’
5. Tatsuya Hongu and Glyn O. Phillips, 'New Fibres', Ellis Horwood, New York, London
6. Menachem Lewin, Eli M. Pearce, ‘Handbook of Fiber Chemistry’
7. John Hearle, ‘High Performance Fibres’
8. Man-made fibres and their processing / W. Klein.
9. Silk, mohair, cashmere and other luxury fibres / ed. by Robert R. Franck.
10. Regenerated cellulose fibres / ed. by Calvin Woodings.
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
(1. Week) Referances, Lecture Contents, Basıc Terms And Defınıtıon Used In The Productıon Of
Natural And Synthetıc Fıbres, Classıfıcatıon Of Fıbres, World And Turkısh Fıbre Market Analysıs
(2. Week) Classıfıcatıon Of Natural Fıbres, Propertıes, Typıcal Examples, Natural (Cotton And Cotton)
Fıbres, Basıc Propertıes, Applıcatıon Areas
(3. Week) Flax Fıbre Propertıes, Productıon Methods, Applıcatıon Areas
(4. Week) Basıc Propertıes Of Anımal Fıbres, Wool Fıbre And Angora Wool Fıbre Productıon,
Propertıes
(5. Week) Sılk Fıbre Production, Propertıes, Hıstorıcal Development Of Synthetıc Fıbres
(6. Week) Rejenere Cellulosıc Fıbres, Productıon Methods, Propertıes, Applıcatıon Areas
(7. Week) Mıd-Term Exam
(8. Week) Lyocell /Tencell Fıbre Productıon, Propertıes, Applıcatıon Areas
(9. Week) Classıfıcatıon Of Synthetıc Fıbres, Synthesıs Of Polyester Fıbre,
Melt-Spıınıng, Psot-
Spınnıng Parameters, Latest Technologıcal Developments
(10. Week) Synthesıs Of Acrylıc Fıbres, Wet Spınnıng Methods, Basıc Propertıes, Applıcatıon Areas
(11. Week) Organıc Based Hıgh Performance Fıbres, Hıstorıcal Developments, Hıgh Performance
Fıbres Produced Wıth Physıcal And Chemıcal Methods
(12. Week) Inorganıc Fıbres, Basıc Propertıes, Applıcatıon Areas, Latest Technologıal Developments,
Glass Fıbre, Productıon, Propertıes, Applıcatıon Areas
(13. Week) Carbon Fıbres, Productıon, Propertıes And Applıcatıon Areas
(14. Week) Ceramıc Fıbres, Productıon, Propertıes And Applıcatıons Areas
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TEM 204 Material Science
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Prof. Dr. Recep Kılık
Erciyes University, Faculty of Engineering, Dept. of Mechanical Engineering, 38039 Kayseri, TURKEY
General look to material science, mechanical properties of materials and their testing methods, crystal
structures of materials, solid solutions, atomic diffusion, the phase rule and phase diagrams, metallic
materials, organic materials, ceramic materials, composite materials, corrosion and protection
methods.
1. understand the micro structural properties of materials and their mechanical and fractural
behaviours
TEXTBOOK:
 Principles of Material Science and Engineering, William F.Simith, Secend Edition, McGrow Hill
Publishing Company, 1990.
 Malzeme Bilimine Giriş, Lawrence H. Van Vlack, Çeviren Recep A. Safoğlu, Kipaş Dağıtımcılık,
İstanbul, 1980.
 Material For Engineering, Lawrence H. Van Vlack, Wesley Publishing Company, 1982.
 Malzeme Bilgisi ve Muayenesi, Wolfgang Weissavach, çevirenler, Selahaddin Anık, Sabri Anık,
Murat Vural, Birsen Yayınevi, İstanbul, 1993
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
(1st Week - 4th Week) General look to material science and mecahnical properties of metals
(5th Week - 6th Week) The crystalline structures of solids
(7th Week) Solid solutions and atomic diffusion
(8th Week) The phase formations and phase equilibrium diagrams
(9th Week - 11th Week) Metallic materials
(12th Week - 13th Week) Non-metallic materials
(14th Week) Corrosion
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TEM 205 Computer Programming
LOCAL CREDIT: 3
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Assist. Prof. Dr. Mustafa DANACI
Erciyes University, Faculty of Engineering, Dept. of Computer Engineering, 38039 Kayseri, TURKEY
The emphasis of this course will be on the practical aspects of computer programming techniques.
These techniques will involve computer architecture, high-level programming language, operating
system, multi user operating systems, editor using, basic programming (variables, input and output ,
administrating and control, dimensional variables, sub-programs).
TEXTBOOK:
 Brian W. K., C Programming Language, Prentice Hall, 1988.
 King K. N., C Programming: A Modern Approach, W.W. Norton & Company, 1996.
 Balena F., Programming Microsoft Visual Studio 6.0, Microsoft Press.
However, also other books that includes same topics can be preferred by students.
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
Week 1 : Overview of algorithm tecniques.
Week 2 : Overview of algorithm tecniques.
Week 3 : Basic Language syntaxs, expressions and funtementals
Week 4 : Basic Language syntaxs, expressions and funtementals
Week 5 : Basic Language loops, types, arrays, sub routines and program organizations
Week 6 : Basic Language loops, types, arrays, sub routines and program organizations
Week 7 : C Language syntaxs, expressions and funtementals
Week 8 : C Language syntaxs, expressions and funtementals
Week 9 C Language loops, types,
Week 10 : C Language arrays
Week 11: C Language, procedures&functions
Week 12 : C Language pointers.
Week 13 : C Language loops, types, arrays, functions, pointers and program organizations
Week 14 : C Language loops, types, arrays, functions, pointers and program organizations.
OUTCOME COVERAGE:


ERCIYES UNIVERSITY
Course Title
TEM 207 Strength of Materials
LOCAL CREDIT: 3
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 5
Coordinator
Assoc. Prof. Dr. Zeynep Gül Apalak
Web Page :
Concepts of internal force, stress and strain. Axial loading, transverse shear, bending and torsion.
Stress and strain transformations. Combined loadings. Failure theorems.
The purpose of this course is to provide the student with a clear presentation of the theory and
application of the principles of engineering mechanics and to develop students’ ability to analyze
problems based on the understanding of its basic concepts, such as the external and internal loads,
stress and strain concepts, one-dimensional stress and deformation problem.
TEXTBOOK: Strength of Materials, Ferdinand Beer , Mc Graw Hill
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
(1st Week) Notations and components of normal stress
(2nd Week) Deformation and strain
(3rd Week) The mechanical behaviour of engineering materials
(4th Week) One-dimensional problems
(5th Week) Stress, strain, thermal stres, elasto-plastic stress analysis.
(6th Week) The stress-strain relationships
(7th Week) Hooke’s law
(8th Week) Plane stress, Mohr’s Circle
(9th Week) Plane strain, Mohr’s Circle
(10th Week) Three dimensional stress and strain analyses
(11th Week) Torsion of circular shafts, shear stresses, twist angle,
(12th Week) Torsion of non-circular shafts and thin walled shafts.
(13th Week) Shear flow, shearing stresses, shear centre
(14th Week) Buckling of columns
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TEM 208 Statistics
LOCAL CREDIT: 3
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 5
Coordinator
Assist. Prof.Dr. Oğuz DEMİRYÜREK
Description of probability and statistics and application of them in engineering and particularly in
textile engineering. Data sets, data patterns, data summary measures, basic probability concepts such
as random trials, etc., conditional probability, discrete and continuous probability distributions,
confidence interval, hypothesis tests, coefficient of variance, variance analysis, t-test, one way ANOVA.
Only undergraduate students,
Knowledge of Mathematics and Basic Sciences
Understand the importance of probability and statistics in engineering and how to use the
statistical tools.
TEXTBOOK:
 Y. ElMogahazy, Statistics and Quality Control for Engineers and Manufacturers, Quality Tech,
2002
 D.C.Montgomery and G.C.Runger, Applied Statistics and Probability for Engineers, John Wiley
& Sons,Inc., 1994.
 D.C.Montgomery, “Design and Analysis of Experiments”, John Wiley & Sons, Inc., pp.472-484,
USA, 2001.
GRADING:
1. Midterm (40 %)
TOPICS: (14 Weeks)
(1st Week) What is statistics, role of statistics, statistics in daily life.
(2nd Week) Data sets, data acquisition. Data patterns: arrays, stem-leaf displays, dot plots,
cumulative distributions.
(3rd Week) Data patterns: frequency distributions. Data summary measures: measures of position,
variability, skewness, kurtosis.
(4th Week) Calculation of summary measures from frequency distributions, geometric and
harmonic means. Basic probability concepts: random trials, sample spaces, events.
(5th Week) Conditional probability and statistical independence, Baye's theorem. Counting
techniques, random variables and probability distributions.
(6th Week) Discrete uniform probability distribution.
(7th Week) Bernoulli Random variable, Binomial probability distribution.
(8th Week) Poisson probability distribution.
(10th Week) Normal probability distribution.
(11th Week) Exponential probability distribution, Weibull probability distribution.
(12th Week) Confidence interval, Hypothesis tests for two means, two proportions and two
variances. Coefficient of variance
(13th Week) Hypothesis tests for two means, two proportions and two variances, Variance analysis.
(14th Week) Variance analysis, t-test, oneway ANOVA
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TEM 301 Thermodynamics
LOCAL CREDIT: 3
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 5
Coordinator
Assoc. Prof.Dr. Veysel ÖZCEYHAN
Web Page :
Basic Concepts of Thermodynamics, The Zeroth Law of Thermodynamics, Properties of Pure
Substances, The First Law of Thermodynamics(Closed Systems), The First Law of
Thermodynamics(Control Volumes), The Second Law of Thermodynamics , Entropy
1. use mathematical and engineering knowledge.
2. analyze thermodymanics Laws
1. use energy equations for closed systems and control volumes.
TEXTBOOK: Çengel.A.Yunus, Boles.A.Michael ,Thermodynamics An Engineering Approach.
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
(1st Week) Introduction and Basic Concepts.
(2nd Week) Energy Conversion and General Energy Analysis
(3rd Week) Properties of Pure Substances
(4th Week) Properties of Pure Substances
(5th Week) Energy Analysis of Closed Systems
(6th Week) Energy Analysis of Closed Systems
(7th Week) Mass and Energy Analysis of Control Volumes
(10th Week) The Second Law of Thermodynamics
(11th Week) The Second Law of Thermodynamics
(12th Week) Entropy
(13th Week) Entropy
(14th Week) Entropy
OUTCOME COVERAGE:
 Identify, formulate, and solve engineering problems. These topics are extensively covered
through the truly rich problems listed at the end of each chapter of the text used in the course.
ERCIYES UNIVERSITY
Course Title
TEM 302 Heat Transfer
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Assoc. Prof.Dr. Veysel ÖZCEYHAN
Web Page :
Heat transfer and its relationship to Thermodynamics, general equation of heat conduction; the plane
wall, radial systems; the cylinder, the sphere. Heat transfer from extended surfaces. Transient
conduction, lumped capacitance method. Radiation processes and properties. Blackbody radiation,
surface emission, absorption, reflection and transmission. Gray surface. Radiation exchange between
surfaces. Gaseous emission and absorption.
TEXTBOOK:

GRADING:
1. Midterm ( 40%)
TOPICS: (14 Weeks)
(1st Week) Introduction and Basic Concepts.
(2nd Week) Heat Conduction
(3rd Week) Heat Conduction in the Constant Regime
(4th Week) Heat Conduction in the Constant Regime
(5th Week) Heat Conduction in the Provisional Regime
(6th Week) Heat Conduction in the Provisional Regime
(7th Week) The flow in the blare and channel
(10th Week) Heat transfer with Phase Exchange
(11th Week) Heat Exchangers
(12th Week) Heat Exchangers
(13th Week) Heat Ttansfer with Radiation
(14th Week) Heat Ttansfer with Radiation
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TEM 305 Testing of Textile Materials
LOCAL CREDIT: 3
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Web Page :
Quality concept. Sampling. Physical and chemical testing of textile materials produced in various forms
ranging from fiber to garment. Preparation of quality cards.
Knowledge of Fiber Science, Yarn and Fabric Technology
1. understand textile testing and have idea about quality and comparison
2. measure the properties of the major textile materials with regard to process and quality
control
3. examine the quality criteria and standards
4. design and perform the quality of textiles.
TEXTBOOK:
 B. C. Collier, Textile Testing and Analysis, Merrill Prentice Hall, 1999
GRADING:
1. Homework (10 %)
2. Midterm (30 %)
TOPICS: (14 Weeks)
Week 1: Structure of laboratory conditions
Week 2: The effects of the conditioning, the measurement of laboratory conditions
Week 3: Planning of the experiments end evaluation of the results.
Week 4: Planning of the experiments end evaluation of the results.
Week 5: Sampling
Week 6: Measurement principle of fineness, length, strength, elongation, maturity tests.
Week 7: Sampling principle for yarn tests and planning experimental study
Week 8: Visa
Week 9: Yarn count, twist and strength measurement principles.
Week 10: Yarn unevenness measurement, process control in spinning mills
Week 11: Physical fabric evaluation tests, weight, picks/cm, weft/cm, thickness, dimensional stability
Week 12: Fabric tear strength, breaking strength, friction strength, sewing strength measurements
Week 13: Pilling and abrasion resistance of fabrics
Week 14: Presentation of student projects
OUTCOME COVERAGE:


ERCIYES UNIVERSITY
Course Title
TEM 307 Machine Elements
LOCAL CREDIT: 3
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 5
Coordinator
Assoc. Prof.Dr. Cem SİNANOĞLU
Web Page : http://me.erciyes.edu.tr/csinanoglu
Machine elements, design of mechanical elements, strength for machine design, selection of material
in design, ISO tolerances, shafts, The design of screws, fasteners and connections, screws, shaft-hub
connections, welded, brazed, and bonded joints, bearings.
Bachelor’s degree
The defining of machine elements, strength calculations, and dimensioning.
TEXTBOOK:
 J. E. Shigley, Mechanical Engineering Design, McGrraw-Hill Book Company, 2003.
 E. Koç, Makine Elemanları-I, Nobel Kitabevi, 2007 (in Turkish).
 E. Koç, Makine Elemanları Çözümlü Problemler, Nobel Kitabevi, 2007 (in Turkish).
 A. Çetin Can, Makine Elemanları Tasarımı, Birsen Yayınevi, 2006 (in Turkish).
 A. Bozacı, İ. Koçaş, Ö. Ü. Çolak, Makine Elemanlarının Projelendirilmesi, Çağlayan Kitabevi, 2001
(in Turkish).
 A. Bozacı, Makine Elemanları Cilt –I, Çağlayan Kitabevi, 2005 (in Turkish).
 H. Rende, Makine Elemanları Cilt –I, Seç Yayın Dağıtım, 2001 (in Turkish).
 M. Gediktaş, Makine Elemanları Problemleri, Çağlayan Kitabevi, 2001 (in Turkish).
 Ö. R. Akgün, O. Yazıcıoğlu, T. Kotil, Cisimlerin Mukavemeti, F. P. Beer, E. R. Johnston çeviri, Beta
Basım Yayım, 2003 (in Turkish).
GRADING:
1. Midterm (40 %)
TOPICS: (14 Weeks)
(2 week) Machine elements, design of mechanical elements
(2 week) Strength for machine design, selection of material in design
(1 week) ISO tolerances
(2 week) Shafts
(2 week) The design of screws, fasteners and connections
(1 week) Shaft-hub connections
(2 week) Screws, bearings.
(2 week) Welded, brazed, and bonded joints, bearings.
OUTCOME COVERAGE:
 Design a system, component or process to meet desired needs. Emphasis is placed on design

issues for the realization of machine elements meeting given performance specification.
Identify, formulate, and solve engineering problems. These topics are extensively covered
through the truly rich problems listed at the end of each chapter of the text used in the course.
ERCIYES UNIVERSITY
Course Title
TEM 308 Mechatronics in Textile
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Assist. Prof. Dr. Şükrü SU
E-mail: [email protected] Web Page : http://me.erciyes.edu.tr/sukrusu/
What is Mechatronics? Sensors and transducers. Signal conditioning, OPAMPs, filtering, Wheatstone
bridges. Data acquisition and presentation systems. Mechanical and electrical actuators and drivers.
The modeling of systems. The dynamic responses and transfer functions of the systems. Frequency
responses. Closed loop controllers. Digital Logic, microprocessors, Assembly language. Input-output
systems. Programmable Logic Controller (PLC). Case studies for a mechatronics systems.
1. understand what mechatronics is and the relationship between textile and mechatronics
2. understand the mechanism of mechatronics
3. get experience about the transfer functions of the systems.
TEXTBOOK:
Lecturer notes
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
(1st Week) What is Mechatronics?
(2nd Week) Sensors and transducers.
(3rd Week) Signal conditioning, OPAMPs, filtering, Wheatstone bridges.
(4th Week) Data acquisition and presentation systems.
(5th Week) Mechanical and electrical actuators and drivers.
(6th Week) The modeling of systems.
(7th Week) The dynamic responses and transfer functions of the systems.
(8th Week) Frequency responses.
(9th Week) Closed loop controllers.
(10th Week) Digital Logic, microprocessors, Assembly language.
(11th Week) Input-output systems.
(12th Week) Programmable Logic Controller (PLC).
(13th Week) Case studies for a mechatronics systems.
(14th Week) Case studies for a mechatronics systems.
OUTCOME COVERAGE:


ERCIYES UNIVERSITY
Course Title
TEM 310 Technical Textiles
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Assist. Prof.Dr. Hüseyin Gazi ÖRTLEK
Web Page :
Definition of Technical textile products, Fibers and chemicals, Classification and end use of technical
textiles, Woven fabrics, Knitted fabrics, Braided fabrics and Non-woven webs, Flexible textiles, Design
and Analysis.
Prerequisite: TEKP 201 Introductıon To Polymer Chemıstry
Attendance: Attendance is obligatory.
1. understand the basic background and principles of manufacture, processing and applications
of high technology textiles for a range of applications
TEXTBOOK:
 Handbook of Technical Textiles (Woodhead / The Textile Institute h/b 2000 Edited by A R Horrocks
and S C Anand, Bolton Institute, UK
 Industrial Applications of Textiles (Textile Progress Vol. 14 No. 1) (Bajaj, P. and Sengupta, A.K. ISBN:
090073972X The Textile Institute 1985)
 Automotive Textiles (Textile Progress Vol. 29 No. 1/2) (Mukhopadhyay, S.K. and Partridge, J.F., The
Textile Institute 1999 P/b
GRADING:
1. Midterm (40 %)
TOPICS: (14 Weeks)
(1st Week) Definition of Technical textiles, application areas, processes
(2nd Week) Technical fibers, high strength, high modulus organic fibers
(3rd Week) New high performance fibres
(4th Week) Finishing processes of technical textiles
(5th Week) Coated technical textiles
(6th Week) Breathable and water proof fabrics
(7th Week) MIDTERM EXAM
(8th Week) Geotextiles
(9th Week) Medical textiles
(10th Week) Personal hygiene products and dressings
(11th Week) Ballistic textiles
(12th Week) Technical and ballistic aspects of textiles
(13th Week) Protective textiles
(14th Week) Automotive textiles
OUTCOME COVERAGE:


Apply math, science and engineering knowledge.
ERCIYES UNIVERSITY
Course Title
TEMIT 302 Braiding Technology
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Prof.Dr. Abdülkadir BİLİŞİK
Web Page :
Definition of braided fabrics and end-uses, classification of braiding, flat and circular fully braiding
technologies, basic braided fabric design, basic calculation on fabric geometry, jamming conditions
and jamming fabric pattern relations.
Must complete successfully to fiber science and yarn technology.
1. understand braided fabric and technology
2. select braided fabric and technology for particular applications
3. get experience on braided fabric for advanced textile engineering courses.
TEXTBOOK:
 D. Brunnschweiler, Braids and braiding, J of Textile Institute, 44, p 666 – 686, 1953.
 D. Brunnschweiler, The structure and tensile properties of braids, J of Textile Institute, 45, T 55 – 87,
1954.
GRADING:
1. Homework (20 %)
2. Midterm (20 %)
TOPICS: (14 Weeks)
(1st Week - 2nd Week) Definition of braided fabrics, fibers and yarns in used for braiding, applications.
(3rd Week - 4th Week - 5th Week) Classification of braiding based on fabric structures and processing,
flat and circular fully braiding technologies and triaxial braiding.
(6th Week - 7th Week) Basic braided fabric design.
(8th Week - 9th Week) Basic calculation on braided fabric geometry, jamming conditions and jamming –
fabric pattern relations.
(11th Week) Preparation of braiding process for fabrication.
(12th Week) Design samples and practices based on applications
(13th Week - 14th Week) Mechanical properties of braided fabrics based on unit cell design.
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
TEMIT 403 Multilayered Woven Fabric
Technology
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Web Page :
Basic of multilayered woven fabrics, fiber and yarns in used multilayered weaving, application of
multilayered woven fabrics, classification of multilayered woven fabric structures, multilayered weaving
technologies, simple 2-layer fabrics, orthogonal woven fabrics, angle-interlocked woven fabrics,
through the thickness, woven fabrics, basic design methodology, end-use requirements relations, basic
geometrical understanding of the fabrics, basic mechanical properties of such fabric structures.
Prerequisite: Must complete successfully to woven fabric technology and textile design
courses.
1. understand 3D fabric and technologies
2. understand how to make and design 3D fabric for particular applications
3. get experience on 3D fabric for advanced textile engineering courses
TEXTBOOK:
 Handbook of analytical methods for textiles , NASA CR - 4750
GRADING:
1. Homework (20 %)
2. Midterm (20 %)
TOPICS: (14 Weeks)
(1st Week - 2nd Week) Basic of multilayered woven fabrics, fiber and yarns in used multilayered
weaving.
(3rd Week - 4th Week - 5th Week) Application of multilayered woven fabrics, classification of
multilayered woven fabric structures.
(6th Week - 7th Week) Multilayered weaving technologies.
(8th Week - 9th Week) Simple 2-layer fabrics, orthogonal woven fabrics, angle-interlocked woven
fabrics, through – the – thickness woven fabrics.
th
(10 Week)
(11th Week - 12th Week) Basic design methodology – end-use requirement relations, basic
geometrical understanding of the fabrics.
th
(13 Week - 14th Week) Basic mechanical properties of such fabric structures.
Course Title
OUTCOME COVERAGE:



ERCIYES UNIVERSITY
Course Title
TTY 201 Yarn Technology
LOCAL CREDIT: 3
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 6
Coordinator
Assist. Prof. Dr. Hüseyin Gazi Örtlek
The fundamental properties of fibers used in spinning, yarn types and basic equations used during
yarn production. Introduction of technologies and machinery used in the production of cotton, wool
and man-made fiber yarns. Explanation of end-uses of yarns.
Undergraduate students are accepted for the course. Attendance and doing homework is a must.
1. understand production and properties of yarns
2. understand relationship between yarn’s properties and fabrics
3. apply knowledge of mathematics on engineering problems of yarn production systems.
TEXTBOOK:
 P.Grosberg, C.Iype, Yarn Production, Theoretical Aspects, ISBN 1870372034, 1999
 Marjorie A.Taylor, Technology of Textile Properties, 3rd Edition, Forbes Publications,
ISBN 0901762822, 1997
 D. J McCreight, E. E. Backe, J. B. Brayshaw, M. S. Hill, Short Staple Yarn Spinner’s
handbook, Carolina Acadmic P. Nort Coraline, ISBN 0-89089-897-9, 1999.
GRADING:
1. Quizes (10 %)
2. Midterm (15 %)
4. Term Paper (15 %)
TOPICS: (14 Weeks)
(1st Week) Definition of textiles, textile semi-products, a brief history of spinning
(2nd Week) Fundamental properties of fibers used in spinning
(3rd Week) Classification of yarns and yarn properties
(4th Week) Yarn numbering systems, number of fibers in the yarn cross-section and computation of
drawing / quize.
(5th Week) Application of both doubling and drafting, computation of twist.
(6th Week)
(7th Week) Introduction of short and long staple fiber spinning systems in general
(8th Week) Introduction of man-made fiber spinning systems.
(9th Week) Fiber opening, blending and cleaning processes, carding and carding machinery.
(10th Week) Combing and combing machinery, drawing and doubling processes
(11th Week) Roving and yarn production and properties, various yarn spinning systems, winding
machinery
(12th Week) Company visit
(13th Week) Presentation of term papers
(14th Week) Composite yarn production system
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TTY 202 Woven Fabric Technology
LOCAL CREDIT: 3
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 6
Coordinator
Prof. Dr. Abdülkadir BİLİŞİK
Weaving preparation, weaving process outline, fabric formation, shedding systems, filling insertion and
insertion types, beat-up, warp and cloth control, fabric design, basic equations for woven fabric and
process parameters.
Must complete successfully to fiber science and yarn technology courses.
1. understand how to make fabric and design depending upon end-use requirements
2. get experience on woven fabric and production techniques for advanced textile engineering
courses.
TEXTBOOK:
 Principles of weaving, R. Marks and A.T.C. Robinson, Textile Institute, 1976.
 Weaving : Conversion of yarn to fabric, P. R. Lord and M. H. Mohamed, Merrow Publishing, 2
nd Ed., 1982
GRADING:
1. Homework (20 %)
2. Midterm (20 %)
TOPICS: (14 Weeks)
(1st Week - 2nd Week) Definition of woven fabrics, classification of weaving, basic weaving motion
to make fabric.
(3rd Week - 4th Week) Preparation of weaving and beaming, warp feeding and cloth control,
shedding, shedding types, basic relation between shedding and fabric structure.
(5th Week - 6th Week) Filling insertion, insertion types, beat – up, basic relation between beat-up
force and fabric formation line,
(7th Week - 8th Week) Basic weave design, design – processing parameters and implementation to
the loom,
(10th Week - 11th Week) Basic relation to describe fabric structure, yarn consumption, energy
requirement for the loom.
(12th Week - 13th Week - 14th Week) Short looks to the narrow weaving, circular weaving, special
woven fabrics and processes
OUTCOME COVERAGE:



ERCIYES UNIVERSITY
Course Title
TTY 204 Knitted Fabric Technology
LOCAL CREDIT: 3
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 6
Coordinator
Assoc. Prof. Dr. Levet Önal
Web Page :
Introduction to knitting technology, terms and definitions, analysis of knitted structures, properties of
yarns used in knitted fabrics, fundamentals of warp-knitting, faults occurring in weft and warp knitting
production and their probable causes
Knowledge of Fiber Science and Yarn Technology
1. understand different knitting Technologies
2. recognize different knitted fabrics and to analyze them
3. identify, analyze, and solve knitting problems
4. improve knitting efficiency and/or knitted fabric quality.
TEXTBOOK:
 Knitting Technology, 2003, Spencer, D., BPCC Wheatons Ltd., Exeter, İngiltere
GRADING:
1. Homework (10 %)
2. Midterm (30 %)
TOPICS: (14 Weeks)
(1st Week) Terms and definitions in Knitting, Introduction to circular knitting (terms and definitions,
knitting elements)
(2nd Week) Single and double jersey circular knitting machines, different types of loops and needle
selection
rd
(3 Week) Introduction to flat knitting technology, knitting elements, differences between two
technologies (flat and circular)
(4th Week) Fundamentals of flat knitting: V-bed flat knitting machines, loop types and forming
methods, needle selection
(5th Week) Standard weft knitted fabrics, their properties and fabric analysis techniques
(6th Week) Derivative knits
(7th Week) Special knitted fabrics
(9th Week) Faults occurred in weft knitting production and their probable causes
(10th Week) Introduction to warp knitting technology: classification, basic terms and definitions,
knitting elements and loop forming
(11th Week) Introduction to different types of warp knitting machines, different loop forming
techniques
(12th Week) Standard warp knitted fabrics, their properties and fabric analysis techniques
(13th Week) Faults occurred in warp knitting production and their probable causes
(14th Week) Presentation of term paper
OUTCOME COVERAGE:
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
ERCIYES UNIVERSITY
Course Title
TTY 206 Textured Yarn Technology
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Spinning systems, drawing, polyester, nylon, orlon, viscose and polypropylene spinning, preparation of
spinning melt, crimping, cutting, baling, texturing, methods of texturing, thermo-mechanical methods,
mechanic methods (air-texturing), textured yarn types.
At the end of this course, students will be able to: understand basic information on classical and
modern texturing methods
TEXTBOOK:
Textile Progress, Volume 16, Number 3, 1987, (D.K. Wilson)..for methods other than false-twist
texturising
Textile Progress, Volume 21, Number 3, 1991, (D.K. Wilson) False-twist texturising
Sentetik Filament İplik Üretim ve Tekstüre Teknolojileri, Ali Demir
Tomorrow’s ideas and profits: polyester / ed. D. Brunnschweiler.
Yarn texturing technology / J.W.S. Hearle, L. Hollick, D.K. Wilson.
GRADING:
1. Midterm (40 %)
TOPICS: (14 Weeks)
(1. week) Referances, lecture contents, World and Turkish fibre market appraisal
(1. week) Synthetic fibre production methods; melt-spinning,
(2. week) Synthetic fibre production methods; dry spinning, wet spinning, gel-spinning
(3. week) What is texturing ?, definition, properties, thermo-mechanical texturing methods, falsetwisting, historical developments, false-twisting spindles,
(4. week) Thermo-mechanical texturing methods, steps involved in the termomechanical
texturing, definition of texturing with false-twisting. Historical progress of false-twist texturing
(6. week) False-twist texturing method: False-twisting spingle types
(7. week) MID-TERM EXAMINATION
(8. week) False-twist texturing (1.part)
(9. week) False-twist texturing (2. part)
(10. week) Mechanical texturing methodsi
(11. week) air-jet texturing
(12. week) BCF texturing methods
(13. week) Effect of BCF texturing parameters on yarn propertiesi
(14. week) Latest progress in yarn texturing sectors, trends
OUTCOME COVERAGE:
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

ERCIYES UNIVERSITY
Course Title
TTY 208 New Yarn Technologies
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Assist. Prof. Dr. Hüseyin Gazi Örtlek
The fundamentals of spinning technologies. The introduction of Open-end spinning technologies, airjet spinning technologies, vortex spinning, wrap spinning. The differences of spinning technologies.
The properties of yarns produced with different spinning systems. Explanation of end-uses of yarns.
1. understand the properties of different spinning techniques, a kowledge of the properties of
yarns produced with different spinning techniques
2. understand relationship between yarn’s properties and spinning technology used.
TEXTBOOK:
 Yeni İplik Üretim Sistemleri, Prof. Dr. Şükriye ÜLKÜ, Uludağ Üni. Matbası, Bursa, 2002.
 Klein, W., 1993. New Spinning Systems. The Textile Institute Manual of Textile Technology, Stephan
Austin and Sons Limited, UK. 50 p.
 Basu, A. 1999. Progress in Air-jet Spinning, Textile Progress. Textile Progress, Volume 29, Number 3,
The Textile Institute, Manchester.
GRADING:
1. Midterm (15 %)
2. Quizes (10 %)
TOPICS: (14 Weeks)
(1st Week) Conventional spinnig systems, the history of the spinning technologies.
(2nd Week) Open-end rotor spinning system
(3rd Week) The properties of open end rotor yarns
(4th Week) Open-end friction spinning systems
(5th Week) The properties of open end friction yarns
(6th Week) Air-Jet Spinning systems, Murata Vortex spinning system.
(8th Week) The properties of air-jet and murata vortex yarns
(9th Week) Wrap spnning technologies
(11th Week) The other spinning technologies
(12th Week) The differences of spinning technologies
OUTCOME COVERAGE:



ERCIYES UNIVERSITY
Course Title
TTY 301 Textile Design
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT:2
Coordinator
Web Page :
Principles of woven fabric design, weave pattern, plain weave and derivatives, satin weave and
derivatives, twill weave and derivatives, preparation of weave pattern to the loom, drawing - in draft,
shedding and reed plans, filling and warp pattern in terms of colors and yarn types, weave architecture
and structure relations, design samples and practices, basic formulas for woven fabric design.
Must complete successfully to woven fabric technology.
1. understand basic woven fabric design and design parameters
2. understand how to make fabric design and put in the practice depending upon end-use
requirements
3. get experience on woven fabric design for advanced textile engineering courses.
TEXTBOOK:
 Dokuma tekniği ve sanatı, Cilt 1: Temel dokuma tekniği ve kumaş yapıları, Güngör Başer, TMMOB
Tekstil mühendisleri odası yayınları, No.2, 1998.
 Weaving : Conversion of yarn to fabric, P. R. Lord and M. H. Mohamed, Merrow Publishing, 2 nd
Ed., 1982
GRADING:
1. Homework (20%)
2. Midterm (20%)
3. Final Exam (60%)
TOPICS: (14 Weeks)
(1st Week – 2nd Week ) Principals of woven fabric design, weave patterns.
(3rd Week – 4th Week – 5th Week) Plain weave and derivatives, satin weave and derivatives, Twill
weave and derivatives.
(6th Week – 7th Week ) Preparation of weave pattern to the loom, drawing – in draft, lifting plan, reed
plan,
(8th Week – 9th Week) Filling and warp pattern in terms of colors and yarn types, weave architecture –
fabric structure relations.
(10th Week ) Midterm Exam
(11th Week – 12th Week – 13th Week ) Design samples and practices.
(14th Week ) Basic equations for fabric design in use textile product design.
OUTCOME COVERAGE:
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

ERCIYES UNIVERSITY
Course Title
TTY 302 Warp Knitting Technology
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Web Page :
Classification of warp knitting technologies, general terms and definitions, warping methods,
fundamental patterning techniques in warp knitting machinery, Tricot and Rachel warp knitting
machinery, warp knitting machinery for specialty fabrics, warp knitted fabric geometry, production
calculations for standard warp knitted fabrics, ProCAD software.
The knowledge of knitted fabric technology.
1. understand warp knitting technology, warp knitting machines and to provide technological
knowledge of warp knitted fabrics and their properties.
2. recognize different warp knitted fabrics and to analyze them
3. identify and analyze warp-knitting problems
4. learn ProCAD warp-knitting software
TEXTBOOK:
 Spencer, D., Knitting Technology, 2003, BPCC Wheatons Ltd., Exeter, İngiltere
GRADING:
1. Homework (20 %)
2. Midterm (20 %)
TOPICS: (14 Weeks)
(1st Week) Classification of warp knitting technology, general terms and definitions
(2nd Week) Comparison of weft and warp knitting
(3rd Week) Warping methods for different applications
(4th Week) Fundamental patterning techniques used in warp knitting machinery
(5th Week) Tricot warp knitting machinery, Standard tricot fabrics and their properties
(6th Week) Introduction of Raschel warp knitting machinery and Standard and multi-bar warp
knitting machinery
(7th Week) Mechanical jacquard, multi-bar Raschel warp knitting machinery
(9th Week) Electronic jacquard, multi-bar Raschel warp knitting machinery
(10th Week) Warp knitted fabric geometry
(11th Week) ProCAD Software
OUTCOME COVERAGE:



ERCIYES UNIVERSITY
Course Title
TTY 308 Woven Fabric Design
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Web Page :
Principal of jacquard system, basic jacquard woven fabric design, Figuring with extra warp and filling,
design examples, backed fabrics, gauze and leno structures, preparation of weaving loom for jacquard
harnesses and dobby frames, basic calculations for unit cell design.
Prerequisite: Must complete successfully to woven fabric technology and textile design.
1. understand figured fabric design and design parameters
2. understand how to make complex fabric design and put in the practice depending upon enduse requirements
3. get experience on specialty fabric design for advanced textile engineering courses.
TEXTBOOK:
 Watson’s advanced textile design (compound woven structure), Z. J. Grosicki, Newnes
– Butterworths publishers, 1977.
 Advanced textile design, William Watson, 3 th ed., Longmans, green and Co., 1955.
 Woven structure and design, Part 2: Compound structures, D. Goerner, BTTG, 1989
GRADING:
1. Homework (20 %)
2. Midterm (20 %)
TOPICS: (14 Weeks)
(1st Week - 2nd Week) Principal of jacquard system, basic jacquard woven fabric design.
(3rd Week - 4th Week - 5th Week) Figuring with extra warp and filling, design examples.
(6th Week - 7th Week) Backed fabrics, design examples.
(8th Week - 9th Week) Gauze and leno structures, selvage design.
(11th Week - 12th Week) Preparation of weaving loom for jacquard harnesses and dobby frames.
(13th Week) Design samples and practices from real world environment
(14th Week) Basic calculations for unit cell design.
OUTCOME COVERAGE:



ERCIYES UNIVERSITY
Course Title
TTY 310 Knitted Fabric Design
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Web Page :
Basic knits, derived knits, design systems at flat and circular knitting systems, Knitted fabric analyze,
Computer aided knitting technology.
Knowledge of knitted fabric technology.
1. understand various knits, jacquard mechanism of knitting, new version computer aided flat
knitting machinery and their design systems.
2. recognize special knitted fabrics and to analyze them
TEXTBOOK:
 Raz, S., Flat Knitting Technology, 1993, Universal Maschinenfabrik, Germany.
GRADING:
1. Homework (10 %)
2. Midterm (30 %)
TOPICS: (14 Weeks)
(1st Week) Drawing basic patterns (plain, lacost) , properties, areas used
(2nd Week) Drawing basic patterns(interlock, links-liks), properties, areas used
(3rd Week) Patterns derived from plain knit, drawing, properties, areas used
(4th Week) Patterns derived from ribs, properties, areas used
(5th Week) Patterns derived from interlock, properties, areas used
(6th Week) Fleecy fabric properties, areas used
(7th Week) Fabric analysis
(8th Week) Fabric analysis and designing a new fabric
(9th Week) Color effect
(11th Week) Fancy patterns, properties, areas used
(12th Week) Machine types
(13th Week) CAD systems in fabric designing
OUTCOME COVERAGE:
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

ERCIYES UNIVERSITY
Course Title
TTY 401 Production Cost at Textile and Apparel
LOCAL CREDIT: 3
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 5
Coordinator
Web Page :
Concepts and principal of finance, Financal tables, Classification of finance, Raw materias cost, Labor
cost, General production cost, Distribution of financial expenses, Order cost systems, Financial
methods for decision making mechanism, Finansial methods for evaluation and control mechanism.
Knowledge of Principles Microeconomics and Financial Management
1. calculate and arrange unit cost of a textile material, ability to analyze economic position of the
company and decision making mechanism.
2. compute the costs of manufactured goods, control expenditures and how to use accounting
data for taking essential decisions by the help of examples.
TEXTBOOK:
 Material management In Clothing Production, D.J.Tyler.BSP Professional Books,1991
 Charles T. Horngren, Srikant M. Datar and George Foster, New Jersey: Prentice Hall,
Pearson Education International (2003)
GRADING:
1. Midterm (40 %)
TOPICS: (14 Weeks)
(1st Week - 2nd Week) Main subjects of cost accounting: Concepts of cost- expense- spending,
production costs, classification of costs
(3rd Week - 4th Week) Financial tables in cost accounting: Preparation of Cost of Goods Sold Table
in manufacturing, commercial and service firms, Relating the Cost of Goods Sold Table with
Income Statement, Formation of document flow in ordering and using Raw materials and
Contributing materials
th
(5 Week - 6th Week) Inventory Valuation Methods: FIFO, LIFO, average costing and etc.
(8th Week) Issues about labor costs: Following Labor costs, Preparation of payrolls by making
income accrual computations
th
(9 Week - 10th Week) Factory Overhead and Cost budgeting: The contents of overhead costs and
cost allocation keys.
(11th Week - 12th Week) Allocation of Cost Accounts: Methods of cost allocation and practices
(13th Week - 14th Week) Job Order Costing System: Concept of job order costing system,
documents used in job order costing system.
OUTCOME COVERAGE:



ERCIYES UNIVERSITY
Course Title
TTY 402 Carpet Technology
LOCAL CREDIT: 2
Term
Spring
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Web Page :
Fundamental definication, Classification of carpet, Carpet design types, Processes of carpets, Carpet
fabrication, Axminister carpet, Wilton carpet, Tufting, Axularies in carpet technology
Must complete successfully to woven fabric technology and textile design courses.
1. understand carpet and velvet technologies
2. understand how to make and design carpet for particular applications
3. get experience on carpet and velvet for advanced textile engineering courses
TEXTBOOK:
 Watson’s advanced textile design (compound woven structure), Z. J. Grosicki, Newnes –
Butterworths publishers, 1977.
 Woven structure and design, Part 2: Compound structures, D. Goerner, BTTG, 1989.
GRADING:
1. Homework (20 %)
2. Midterm (20 %)
TOPICS: (14 Weeks)
(1st Week - 2nd Week) Definition of carpet structures, classification of carpet type structures. Brief
outlook on hand woven carpet and knot arrangements
(3rd Week - 4th Week - 5th Week) Face-to-face carpet weaving, wire carpet weaving, loop pile
weaving.
(6th Week - 7th Week) Carpet weaving machine
(8th Week - 9th Week) Backing substrates for carpet, lamination and drier for carpet.
(10th Week)
(11th Week - 12th Week) Velvet structures, velvet weaving.
(13th Week - 14th Week) Velvet structures, velvet weaving.
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
Course Title
TTY 403 Nonwoven Technologies
LOCAL CREDIT: 3
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 6
Coordinator
Assoc. Prof.Dr. İsmail KARACAN
Web Page :
Fundamentals and basic principles of nonwoven fabric formations, fiber types used, needle-punching,
adhesive-bonding, spunlaid fabrics, thermobonding technologies and applications in medical textiles.
None
To teach the students the fundamental and basic principles of nonwoven fabric formation
technologies and to inform the students about different nonwoven fabrics and their industrial
applications
TEXTBOOK:
1- Thermal Bonding of Nonwoven Fabrics (Textile Progress Vol.26 No. 2)
Dharmadhikary, R.K., Gilmore, T.F., Davis, H.A., and Batra, S.K., ISBN: 1870812786
The Textile Institute 1995
2-Developments in Non-Woven Fabrics (Textile Progress Vol. 12 No. 4)
Purdy, A.T.The Textile Institute 1983
3-Absorbent
Incontinence
Products(Textile
Progress
Vol.
20
No.
3)
Cusick, G.E. and Hopkins, T. The Textile Institute 1990
GRADING:
1. Midterm ( 40 %)
TOPICS: (14 Weeks)
(1. week) Referances, Lecture contents
 Importance and place of nonwoven technbologies in our lives
 Historical developmen of nonwoven technologies
 Definition of nonwovens
 Applications of nonwovens
(2. week) World market analysis of nonwovens
(3. week) A general overview of the nonwoven production methods
 High performance fibres used in the production of nonwovens
 Basofil (Melamine-formaldehide)
 Kynol, NOVOLOID
 Polybenzimidazole, PBI
 Poly-Ether-Imide, PEI
 Poly-Tetra-Fluoro-Ethylene, TEFLON
(4. week) Staple fibre based web formation methods (part-1)
Dry-laid web formation
 Carding
(5. week) Staple fibre based web formation methods (part-2)
 Dry-laid web formation (continued…)
 Air laid web formation
 Wet laid web formation
(6. week) Continous filament based web formation methods
 Spun-laid
 Melt-blown
(7. week) MID-TERM EXAM
(8. week) web bonding
Mechanical bonding methods
1-Needle Punching, Felting
2-Spunlace
3-Stitch bonding
(9. week) Web bonding
Chemical Bonding
1-Spray method
2-Absorption method
3-Surface coating method
4-Foaming method
5-Printing method
(10. week) Thermal Bonding
a-Calender Bonding
b-Hot air bonding
(11.week) Nonwovens produced using nanotechnology methods
(12. week) Finishing of nonwovens
(13. week) Nonwoven applications: Filtration
(14. week) Nonwoven applications: automotive sectors
OUTCOME COVERAGE:



ERCIYES UNIVERSITY
Course Title
TTY 407 Fancy Yarn Technology
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Web Page :
Introduce fancy yarn types, properties and production methods. Explanation of certain types of fancy
yarns, machinery and equipment used in the production of these yarns. Explanation of end-uses.
1. improve their capabilities in designing various fancy yarns using fancy yarn properties and
production.
TEXTBOOK:
 Fashion Design and Product Development, Harold Carr, John Pomeroy, Blackwell
Scientific Publications, ISBN 0-632-02893-9,
 Fashion Apparel and Accessories, Jay and Ellen Diamond, Delmar Publishers Inc.,
 Klein, W., 1993. New Spinning Systems. The Textile Institute Manual of Textile
Technology, Stephan Austin and Sons Limited, UK. 50 p.
GRADING:
1. Quizes (10 %)
2. Midterm (15 %)
TOPICS: (14 Weeks)
(1st Week) Definition of fashion, its phases and the relation between fashion and fancy yarns
(2nd Week) Design, classification of yarns, definition of fancy yarns and a brief history of fancy yarns
(3rd Week) Classification of fancy yarns
(4th Week) Properties of fancy yarns and their end-uses, introduction of machines used in fancy
yarn spinning
(5th Week) Fancy yarn design studies, theoretical principles of fancy yarn twisting/homework
presentation
th
(6 Week) False twist principle, hollow spindle fancy twisting machines, properties of yarns
produced by this machine and their end-uses
(8th Week) Other yarn types produced by using hollow spindle, influence of production speed on
the properties of yarns produced by hollow spindle twisting machines.
(9th Week) Chenille yarns and machinery, parameters that influence the properties of fancy yarns
(10th Week) Knitting type fancy yarns, parameters that influence the properties of fancy yarns
(11th Week) Fancy yarn design studies, fancy yarn production by the use of rotor spinning
(12th Week) Fancy yarns used in carpets, tools that provide flexible spinning of fancy yarns
OUTCOME COVERAGE:



ERCIYES UNIVERSITY
Course Title
TTY 409 Home Textiles
Term
Fall
Department
Textile Engineering
Coordinator
LOCAL CREDIT: 2
ECTS CREDIT: 4
Web Page :
Definition and classification of home textile related products, tapestry and upholstery fabrics, fancy
toilet and quilt fabrics, chenille pile fabrics, wilton and axminster pile carpet, tufted structures, special
net type fabrics for curtain and table covering, designing depending on requirements, loom
arrangement and production parameters.
Home textile products, its properties, intorduction to home textile production, position of home textile
in interier, designation of home textile, design styles, learning machine parks.
COURSE PROCEDURE:
TEXTBOOK:
Lecturer notes
GRADING:
1.
2.
Midterm ( 40%)
Final exam (60 %)




Nazım Paşayev. Genel Konfeksiyon Teknolojisi. BİRSEN Yayınevi. İstanbul, 2008.
Dekor vaşego doma. Moskova. Rosmen, 2007
Delları V.V. Texnologiya, konstruirovaniye i izgotovleniye ştor. Moskova, Vuzovskaya kniga, 2004
Kataloglar ve dergiler, internet siteleri
TOPICS: (14 Weeks)
(1.
(2.
(3.
(4.
(5.
(6.
(7.
(8.
(9.
week) Cotton fabrics
week) Linen fabrics
week) Wool fabrics
week) Silk fabrics
week) Knitting fabrics and weave less surfaces
week) Fashion and style in home textile
week)Historical styles in interier
week) Ethnical styles in interier
week) Contemporary styles in interier
(10. week) Textile in interier
(11. week) Color solutions in home textile
(12. week) Home textile types. Production techniques, Machine Park.
(13. week) Continue
(14. week) Technical excursion to home textile factory
OUTCOME COVERAGE:



ERCIYES UNIVERSITY
Course Title
TTY 411 Jacquard Technology
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Web Page :
Principal of jacquard weaving, classification of jacquard, jacquard head and mechanism, jacquard
shedding, jacquard harness, jacquard design and mountings, figured pattern, pattern with additional
yarn sets, design examples and practices.
Must complete successfully to woven fabric technology and textile design courses.
1. understand jaquard technology
2. understand how to make and design figured fabrics for particular applications
3. get experience on jacquard weaving for advanced textile engineering courses.
TEXTBOOK:
 Watson’s advanced textile design (compound woven structure), Z. J. Grosicki, Newnes –
Butterworths publishers, 1977.
 Woven structure and design, Part 2: Compound structures, D. Goerner, BTTG, 1989.
GRADING:
1. Homework (20 %)
2. Midterm (20 %)
TOPICS: (14 Weeks)
(1st Week - 2nd Week) Principal of jacquard weaving.
(3rd Week - 4th Week - 5th Week) Classification of jacquard, jacquard head and mechanism.
(6th Week - 7th Week) Jacquard shedding, jacquard harness.
(8th Week - 9th Week) Jacquard design and mountings, figured patterns.
(11th Week - 12th Week) Pattern with additional yarn sets.
(13th Week - 14th Week) Design examples and practices.
OUTCOME COVERAGE:
ERCIYES UNIVERSITY
TTY 413 Production Management and
Organization in Textile Processes
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Web Page :
Principles of marketing textile goods, features of busines, product design, product planning, assembly
line balancing, preparing production plans.
Course Title
Learning prodution management in textile and ready-made clothing plants, organization and planning,
related calculations.
COURSE PROCEDURE:
TEXTBOOK:
Lecturer notes
GRADING:
1. Midterm (40 %)
 Paşayev N.P. Dikiş müesseselerinin layihelendirilmesi. Bakü, Oka-Ofset, 2003
 J.Cristopher Jones. Design Methods. New York, 1982
 Voronkova T.Y. Proektirovaniye şveynıh predpriyatiy. Moskova 2006
 Proektirovaniye predpriyatiy şveynoy promışlennosti. Moskova, 1983.
TOPICS: (14 Weeks)
(1. week) Organization, plan and management of production in textile. Objectives and functions.
(2. week) Specialization in ready-made clothing plants. Production program in plant. Structure of
plant.
(3. week) Flow production. Organization forms of flow lines. Classifications of flows.
(4. week) Organization of flow production in ready-made clothing plant seam department. Types
of flows.
(5. week) Types of technological flows. Flows with conveyor and without conveyor. Straight and
group flows
(6. week) Principles of technological flow organizations. Balancing of production line
(7. week)Calculations of technological flows
(8. week) Designation and analysis of technological diagram of flows
(9. week) Planning of flows. Calculation of technical and economic indications.
(10. week) Technological calculations of production completing department in ready-made
clothing plant. Technological calculations of ready product store.
(11. week) Technological calculations of model preparation for production department in readymade clothing plant, its organization and planning.
(12. week) Technological calculations of clothes preparation for cutting department in ready-made
clothing plant, its organization and planning.
(13. week) Technological calculations of flatten and cutting department in ready-made clothing
plant, its organization and planning.
(14. week) Organization, planning and management properties of other textile plants.
OUTCOME COVERAGE:



ERCIYES UNIVERSITY
TTY 415 Quality Control in Short Staple Fibre
Spinning
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Web Page :
Yarn unevenness, Diagram, Spektogram, Yarn defects, Unevenness Index, Hairness, The basic statistical
principles employed for displaying test results, The evaluation of test results.
Course Title
At the end of this course, students will be able to: improve their capabilities in evaluating staple yarn
properties and production
TEXTBOOK:

GRADING:
1. Midterm (40 %)
TOPICS: (14 Weeks)
(1st Week) Yarn unevenness
(2nd Week) Diagram
(3rd Week) Spectrogram
(4th Week) The fundementals of statistics
(5th Week) Standard deviation, coefficient of variance
(6th Week) Statistically calculation
(7th Week) Analysis of variance
(8th Week) Yarn hairiness
(9th Week) Yarn hairiness evaluation systems
(11th Week) Yarn fault
(12th Week) Uster tester device
OUTCOME COVERAGE:

ERCIYES UNIVERSITY
TTY 417 Hosiery and Seamless Knitting
Technology
LOCAL CREDIT: 2
Term
Fall
Department
Textile Engineering
ECTS CREDIT: 4
Coordinator
Web Page :
Definition and contend of hosiery and seamless production technology, Sections of socks and
production stages, Toe closing technology and closed toe, Types of socks and socks designing
techniques, Hosiery machinery technology, Seamless garment production and properties, Circular
seamless garment manufacturing and technology, wholegarment manufacturing and technology,
Seamless warp-knitting technology, Finishing processes of seamless products, Faults in seamless
garments, Seamless glove manufacturing and technology.
The knowledge of knitted fabric technology.
1. understand the manufacturing principle of hosiery and seamless textiles
2. recognize different seamless products
3. identify different types of hosiery products, analyze, and solve knitting problems
4. improve hosiery efficiency and/or quality.
TEXTBOOK:
GRADING:
1. Homework ( 10 %)
2. Midterm ( 30 %)
TOPICS: (14 Weeks)
(1st Week) Definition and contend of hosiery and seamless production technology
(2nd Week) Sections of socks and production stages
(3rd Week) Toe closing technology and closed toe
(4th Week) Types of socks and socks designing techniques
(5th Week) Hosiery machinery technology
(6th Week) Seamless garment production and properties
(7th Week) Circular seamless garment manufacturing and technology
(9th Week) Wholegarment manufacturing and technology
(10th Week) Seamless warp-knitting technology
(11th Week) Finishing processes of seamless products
(12th Week) Faults in seamless garments
(13th Week) Seamless glove manufacturing and technology
Course Title
OUTCOME COVERAGE:
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ERCIYES UNIVERSITY FACULTY OF ENGINEERING TEXTILE

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1. Definition, scope, content of the course 2. Light 3. Light 4. Light 5

A multiple myeloma case accompanying to lung, colon and gastric

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ERCIYES UNIVERSITY FACULTY OF ENGINEERING TEXTILE