Dokuz Eylül University Graduate School of Natural and Applied Sciences

Department of Textile Engineering DEU Textile Engineering Department, which was founded in 1997, provides education with an academic staff of 7 professors, 3 associate professors, 1 assistant professor, 2 lecturers, 14 research assistants and a specialist. Physical and chemical testing laboratories, clothing, knitting and weaving workshops, CAD laboratory, dyeing-finishing laboratory, comfort laboratory, and computerized knitting design laboratory exist in the department. The first graduates of the department are of 2001. Every year 60 students attend the education program in the department. After a preparation year for English language, the students take courses of basic engineering in addition to the courses of basic textiles in the first year of the program. By the end of the first year, the students attend workshop practices. With the start of the second year in the program, the detailed courses of textiles are given and by the end of the second and third years of the program the students attend professional practices by working in vertically integrated textile factories. In the last year of the education program, in addition to the compulsory courses the students are able to choose courses from three selective groups of courses which are textile group, science/math group and social selective group. In this way the students are able to form the most appropriate course outline for themselves according to their interest areas. In the first year of the program the students take an English course to get acquaintance with the technical terms, and in the following years they take at least one course in English. In the department, programs of Textile Engineering Orientation, MSc and PhD in Textile Engineering are available in the framework of Graduate School of Natural and Applied Science. Graduate students are assigned in the sector of Textile and Apparel which is a running sector in terms of employment and production. The graduates find work opportunities in spinning, weaving, knitting, finishing and apparel factories, merchandising companies of textile products, accessories and machines, importing and exporting companies and textile laboratories. The main duties of textile engineers are production planning, organization, management at textile factories, design of textile product, managing projects of textile factories, the evaluation of usage of textile products, giving education in textile companies. Textile engineers establish relations between the commercial textile companies and governmental and local institutions, management of manufacturers of raw materials, machinery and spare parts. Besides the researches on basic textile engineering, DEU Textile Engineering Department focuses on researches of technical textiles such as smart textiles, functional textiles, textile composites, protective textiles, medical textiles, nanoparticulated fibre manufacturing, fabric handle and clothing comfort, plasma, sol-gel and microcapsulation applications in finishing, simulation of knitted fabric appearance. Head of Department Prof.Dr. Ayşe OKUR Deputy Head of Department Prof.Dr. Sevil YEŞİLPINAR Deputy Head of Department Assoc.Prof.Dr. Merih SARIIŞIK LLP Erasmus Program Coordinator Assoc.Prof.Dr. Ender Yazgan BULGUN Telephone: + 90.232.4127701 Fax: + 90.232.4127750 E-mail: tekstilmuh@deu.edu.tr Postal Address: DEÜ Mühendislik Fakültesi Tekstil Mühendisliği Bölümü Tınaztepe Kampüsü 35160 BUCA / İZMİR – TURKEY Web Address: http://web.deu.edu.tr/tekstil/index.htm

Academic Staff Professors Name-Surname RESEARCH INTERESTS e-mail

Arif KURBAK

Knitting Technology, Textile Mechanisms, Optimization Methods, 3D Geometrical and Physical Modeling of Knitted Fabrics, Simulation and Animation Techniques, Technical Textiles, Textile Composites

arif.kurbak@deu.edu.tr

Yalçın BOZKURT Process Control in Yarn Factories, Yarn Technology

yalcin.bozkurt@deu.edu.tr

Gülseren KURUMER Clothing Technology, Clothing Machinery, Fashion Design, Organization and Planning in Clothing Factory

gulseren.kurumer@deu.edu.tr

Nilüfer ERDEM

Textile Raw Materials (Natural and Chemical Fibers), Textile Physics and Microscopy, Textile Chemistry, Fibre and Yarn Technology

nilufer.erdem@deu.edu.tr

Ayşe OKUR Physical and Mechanical Properties of Yarns and Fabrics, Fabric Objective Measurement, Clothing Comfort

ayse.okur@deu.edu.tr

Fatma ÇEKEN Knitting Technology, Design for Knitted Fabrics, Automotive Textiles

fatma.ceken@deu.edu.tr

Sevil YEŞİLPINAR Clothing Technology, CAD Systems sevil.yesilpinar@deu.edu.tr

Associate Professors Name-Surname RESEARCH INTERESTS e-mail

Merih SARIIŞIK Textile Pretreatment, Color Science, Textile Biotechnology

merih.sariisik@deu.edu.tr

Ender Yazgan BULGUN

Clothing Technology, Fashion Design, Pattern Making and Grading, CAD Systems in Apparel Manufacturing, Smart Textiles and applications

ender.bulgun@deu.edu.tr

Assistant Professors Name-Surname RESEARCH INTERESTS e-mail

Aysun Cireli AKŞİT

Textile Chemistry, Textile Finishing Treatments, Chemical Testing of Textile Materials, Protective Clothing, Surface Modification Techniques (Sol-gel, Plasma)

aysun.cireli@deu.edu.tr

Lecturers Name-Surname RESEARCH INTERESTS e-mail

Vildan SÜLAR

Physical testing of textiles, Fabric objective measurement, Textile quality control

vildan.sular@deu.edu.tr

Hakan ÖZDEMİR

Weaving technology, Woven fabric design, Woven fabric simulation, Yarn technology

h.ozdemir@deu.edu.tr

Research Assistants Name-Surname RESEARCH INTERESTS e-mail

Musa KILIÇ

Physical Textile Testing, Yarn Technology, Statistical Quality Control, Quality Function Deployment (QFD), Fuzzy Logic

musa.kilic@deu.edu.tr

Ozan KAYACAN

Clothing Technology, Apparel Production and Management, Smart Garments

ozan.kayacan@deu.edu.tr

Özlem KAYACAN

Knitting Technology, Computerized Pattern Design of Knitted Fabrics

ozlem.bicer@deu.edu.tr

Gülseren KARABAY

Clothing Technology, Textile and Clothing Management

gulseren.karabay@deu.edu.tr

Bengi KUTLU

Textile Chemistry, Textile Finishing Treatments, Thermal Protective Clothing, Plasma Treatments

bengi.kutlu@deu.edu.tr

Sibel KAPLAN

Yarn Spinning Technologies, Objective Fabric Measurement Systems, Clothing Comfort

sibel.kaplan@deu.edu.tr

Ü.Halis ERDOĞAN

Natural Fibers, Chemical Fibers, Geotextiles, Nano-composite Fibers

umit.erdogan@deu.edu.tr

Gökhan ERKAN

Textile Chemistry, Textile Pretreatment, Textile Dyeing

gokhan.erkan@deu.edu.tr

Befru Turan ERDOĞAN

Fabric Geometry, Woven Fabric Design, Woven Fabric Technology, Permeability Properties of Textiles

befru.turan@deu.edu.tr

Nurhan Onar

Textile Chemistry, Textile Pretreatment, Textile Finishing, Coating, Sol-gel Technology, Conductive Textiles

nurhan.onar@deu.edu.tr

Ayşe Çelik BEDELOĞLU

Photovoltaic Textiles (Flexible organic solar cell applications), Yarn Manufacturing Technologies , Conductive Filament Yarn Production

ayse.celik@deu.edu.tr

Gonca Balcı

Physical Textile Testing, Textile Quality Control

gonca.balci@deu.edu.tr

Ali Serkan Soydan Knitting Technology ali.soydan@deu.edu.tr Bekir Yıldırım

Woven Fabric Structures and Fabric Mechanics, Weaving Technology

bekir.yildirim@deu.edu.tr

Tuba ALPYILDIZ

Knitting Technology, Geometrical and Physical Modeling of Knitted Structures, Textile Reinforcement and Composites

tuba.alpyildiz@deu.edu.tr

Course Plan of MSc/PhD Programs Autumn Term

Course Code Course Name T P Sum ECTS

STA 6043 C (PhD) Optimization Theory 3 0 3 7

TKS 5001 Fibre and Yarn Mechanics 3 0 3 6

TKS 5007 Suni ve Sentetik Stapel Liflerinin Pamuklu Sisteminde Eğrilmesi 3 0 3 6

TKS 5009 Türk Yapağılarının Kalite Sınıflarının Belirlenmesi 2 1 2.5 6

TKS 5013 Tekstil Ürünlerinde Düzgünsüzlük ve Hata Analizi 2 1 2.5 6

TKS 5015 Liflerin Gördügü Zararlar ve Analiz Yöntemleri 2 2 3 8

TKS 5017 Tekstil ve Konfeksiyon İşletmelerinde Verimlilik Yükseltme Kriterleri 2 0 2 6

TKS 5019 Textile Composites 3 0 3 6

TKS 5021 Tekstil ve Konfeksiyonda Teknik Ürün Geliştirme Aracı Olarak Değer Analizinin Kullanımı 2 1 2.5 6

TKS 5023 İleri Terbiye Teknolojileri 2 2 3 8

TKS 6001 Engineering Design of Textiles 2 2 3 6

TKS 6005 Konfeksiyon İşletmelerinde Zayıf Nokta Analizleri 2 0 2 6

TKS 6007 Computer Graphic Designs of Textile Structures 2 0 2 6

TKS 6009 Objektif Kumas Ölçüm Teknolojisi 2 0 2 6

MAT 5002 C (MSc) Numerical and Approximate Methods 3 0 3 7

TKS 5096 C MSc Seminar 0 2 0 5

TKS 5098 C MSc Research 2 0 0 10

TKS 5099 C MSc Thesis 0 0 0 20

TKS 6096 C Ph.D. Seminar 0 2 0 5

TKS 6098 C Ph.D. Research 3 0 0 10

TKS 6099 C Ph.D. Thesis 0 0 0 20

(C: Compulsory)

Spring Term

Course Code Course Name T P Sum ECTS

TKS 5002 Fabric Mechanics 2 0 2 6

TKS 5004 İplik/Dokuma İşletmelerinde Proses Kontrolü 3 0 3 6

TKS 5006 Konfeksiyonda Uygulamalı İş Etüdü Teknikleri 2 1 2.5 6

TKS 5008 Karmaşık Örme Kumaş Yapıları 2 0 2 6

TKS 5010 Konfeksiyonda CAD/CAM Sistemleri 2 0 2 8

TKS 5012 Further Analysis of Textile Mechanisms 4 0 4 8

TKS 5014 Lif ve Yüzey Kesit Özelliklerinin Çeşitli Mikroskop Teknikleri ile İncelenmesi 2 2 3 6

TKS 5016 Fonksiyonel Tekstiller 3 0 3 8

TKS 6002 Dynamics of Textile Processes 3 0 3 8

TKS 6004 Lif Strüktürleri 2 0 2 6

TKS 6008 Renk Fiziği ve Tekstilde Uygulanması 2 0 2 6

TKS 6014 Enzim Kimyasi veTekstilde Uygulanması 2 0 2 6

TKS 6016 Tekstil ve Konfeksiyon İşletmelerinde Analitik İş Değerlendirme 2 0 2 6

MAT 5002 C (PhD) Numerical and Approximate Methods 3 0 3 7

TKS 5096 C MSc Seminar 0 2 0 5

TKS 5098 C MSc Research 2 0 0 10

TKS 5099 C MSc Thesis 0 0 0 20

TKS 6096 C Ph.D. Seminar 0 2 0 5

TKS 6098 C Ph.D. Research 3 0 0 10

TKS 6099 C Ph.D. Thesis 0 0 0 20

(C: Compulsory) Minimum credit requirement: 21 Number of credit courses: 7

Course Code: TKS 5001 Course Title: Fibre and Yarn Mechanics Level: Graduate Semester: Fall ECTS Credit: 6 Status: Elective Hours a week: (3+0) Total Class Hours: 14 weeks x 3h. = 42h. Instructor: Prof. Dr. Güngör BAŞER Instruction Language: English PREREQUISITIES

Intermediate level of calculus, knowledge of general mechanics and textile technology. DESCRIPTION Objectives: The course aims, at first, giving a deeper understanding of the elastic Properties of textile fibres. In the introduction of the geometric and elastic properties of yarns to students, the concept of theoretical model is, first, explained and then it is shown how these properties can be predicted from the fibre properties by analytical methods.

Learning outcomes:

This course aims at creating an understanding of fibre and yarn structure and also of their mechanical behaviour.

To develop an ability to set up theoretical models.

To train students to use scientific approach to solve practical problems. Contents: Introduction to Fibre Mechanics. An Outline of General, Theory of Elasticity. Tensile Properties of Fibres. Creep and Relaxation. Simple Bending of Bars. Flexural Properties of Fibres. Simple Shear and Torsion of Cylindrical Bars. Torsional Properties of Fibres. Frictional Properties of Fibres. TEACHING AND LEARNING METHOS

The principle method used is to give lectures in course topics and carry out discussions. Home works are also given to solve problems and prepare presentations on certain topics. TEXTBOOK Physical Properties of Textile Fibres, Morton, W. E., Hearle, J. W. S., The Textile Institute, Manchester, 1975 Structural Mechanics of Yarns and Fabrics, Volume I, Hearle, J. W. S., Grosberg, P., Backer, S., Wiley Interscience, 1969 ASSESSMENT

Homework Oral presentation Midterm Exam Final exam

6

Course Code: TKS 5002 Course Title: Fabric Mechanics Level: Graduate Semester: Spring ECTS Credit: 6 Status: Elective Hours a week: (2+0) Total Class Hours: 14 weeks x 2h. = 28h. Instructor: Prof. Dr. Güngör BAŞER Instruction Language: English PREREQUISITIES

Intermediate level of calculus, knowledge of general mechanics and textile technology. DESCRIPTION Objectives: The course aims at introducing the geometrical structure and the mechanical behaviour of the woven and knitted fabrics. Learning outcomes:

This course aims at creating an understanding of fabric structure and mechanical behaviour.

To develop a concept of mechanical behaviour of fabric structures. Contents: Fabric Cover. Pierce’s Geometry of Plain Weave Woven Fabric. Geometry of Plain Knitted Fabric. Theory of Bending of Flexible Bars. Introduction to Elliptic Integrals Physical Model of a Plain Weave Woven Fabric. Physical Model of Weft Knitting Loop. Kurbak’s Model of the Knitting Loop. Oloffson’s Geometric-Mechanic Model of a Plain Weave Fabric. Başer’s Plain Weave Fabric Geometry for Loomstate Fabric. Fabric Extension. Fabric Bending. Fabric Shear. TEACHING AND LEARNING METHOS

The principle method used is to give lectures in course topics and carry out discussions. Home works are also given to solve problems and prepare presentations on certain topics. TEXTBOOK

Structural Mechanics of Yarns and Fabrics Volume I, Hearle, J.W.S., Grosberg, P., Backer, S., Wiley-Inter-Science, 1969 Love, A.E.H., A Treatise on the Mathematical Theory of Elasticity, Dover Publications, 1944 Strength of Materials, Vol. I-II, Timoshenko, S., D.van Nostrand and Co. Inc. Princeton, 1956 Tekstil Mekaniği II, Önder, E., İ.T.Ü. Yayını, 1995

ASSESSMENT

Homework Oral presentation Midterm Exam Final exam

7

Course Code: TKS5004 Course Title: Process Control Techniques in Yarn and Fabric Production Level: Graduate Semester: Spring ECTS Credit:6 Status: Elective Hours aweek: (3+0) Total Class Hours: 14 weeks x 3h. = 42h Instructor: Prof. Dr. Yalçın BOZKURT Instruction Language: Turkish PREREQUISITES None DESCRIPTION Objectives: The course aims to indicate the on-line and off-line process control systems that must be applied in factories to provide sufficient quality and efficiency. Learning outcomes:

This course is expected to help the students to understand the process control systems. To develop the students’ analytical abilities and ability to present and criticize arguments.

To help the students to review the literatures about this subject.

Contents: This course shows the logic and importance of process control. The course consists of process faults in yarn and fabric manufacturing factories, a system formation for the process control, getting information and evaluating the process control. The course also discusses the points and frequency of the process control, raw material, machines and the optimization of the adjustments. TEACHING AND LEARNING METHODS The course is thought in a lecture, class presentation and discussion format. All class members are expected to attend and both the lecture and seminar hours and take part in the discussion sessions. Besides the taught lecture, presentations are to be prepared by the students assigned for that week and presented to open a discussion session. TEXT BOOK - Quality in staple Fibre Spinning, Hötteschwiller, H. Erbele. - Labor Harldbueh, Bühler, A. ASSESSMENT To be announced

8

Course Code: TKS5006 Course Title: Advanced Work Study Technics Level: Graduate Semester: Spring ECTS Credit:6 Status: Elective Hours a week: (2+1) Total Class Hours: 14 weeks x 3h. = 42h Instructor: Prof. Dr. Gülseren KURUMER Instruction Language: Turkish PREREQUISITES Fundamental knowledge of work study technics, which are used in industrial systems, are required. DESCRIPTION Objectives: The course aims to provide an introduction to the basic elements of MTM method, to give a vision for planning and designing work stations, work flows, products, systems etc. Learning outcomes:

This course is expected to help the students to appreciate the philosophy of well-performed man-machine system. To develop the students’ analytical abilities to improve the environmental working conditions.

Contents: This course analyses; the human basic movements by time measurement, standard timetables for each action, comparing the action classes. The combination of the movements for the given examples, improvement of the commonly used methods by using MTM philosophical approach. Teaching and Learning Methods The course is taught in a lecture and practice format. Textbook Manuscripts prepared by instructor. Assessment One exam and a semester study

9

Course Code: TKS5007 Course Title: Spinning of the Synthetic Fibers in Cotton System Level: Graduate Semester: Autumn ECTS Credit:6 Status: Elective Hours a week:(3+0) Total Class Hours: 14 weeks x 3h. = 42h Instructor: Prof. Dr. Yalçın BOZKURT Instruction Language: Turkish PREREQUISITES None DESCRIPTION Objectives: The course aims to indicate the spinning conditions and problems and also to discuss the suggestions for manufacturing of the synthetic yarns in Ring and O.E. Spinning Systems. Learning outcomes:

This course is expected to help the students to understand the short staple spinning technologies. To develop the students’ analytical abilities and ability to present and criticize arguments.

To help the students to review the literatures about this subject.

Contents: This course defines the spinning of the short staple synthetic fibers and consists of the manufacturing of PES, Acrylic and Viscose yarn. The course also discusses manufacturing of blended yarns and evaluating the efficiency in spinning process. TEACHING AND LEARNING METHODS The course is thought in a lecture, class presentation and discussion format. All class members are expected to attend and both the lecture and seminar hours and take part in the discussion sessions. Besides the taught lecture, presentations are to be prepared by the students assigned for that week and presented to open a discussion session. TEXT BOOK - Fundamentals of Spun Yarn Technology, Carl A. Lawrence, CRC Press, 2003. - Short Staple Yarn Manufacturing, McCreight, D.J., Feil,R.W., Booterbaugh, J.H., Backe, E.E. USA: Carolina Academic Pres., 1997. - Open-End İplik Teknolojisi, Cengiz Yapıcılar, İstanbul, 2005 ASSESSMENT To be announced

10

Course Code: TKS5008 Course Title: Complex Knitted Structures Level: Graduate Semester: Spring ECTS Credit: 6 Status: Elective Hours a week: (2+0) Total Class Hour: 28 Instructor: Prof. Dr. Fatma Çeken Instruction language: Turkish

PREREQUISITIES None DESCRIPTION Objectives: The course aims to examine knitting structures which are produced by different complicated besides the simple basic knitting techniques. Learning outcomes:

Knitting structures which are produced with different techniques using single-bed knitting machines. (dropped stitch, transparent knits, structures produced by different types of yarns, etc.) Knitting structures which can be produced using double-bed knitting machine. (different jacquard techniques, relief patterns, spacer knitting structures, etc.) Knitting structures which are being used for technical textiles. (knitting structures used in the automotive industry, in coated fabrics, in active sports clothing, warp knitting structures used in geotextiles, bandages, corsets, vessel and prosthesis applications, net structures used as the medical textiles, etc.)

Contents: Technical analysis of warp and weft knitting structures TEACHİNG AND LEARNING METHODS Examining the structures by technical analysis (examination of the knitting notation, machine technology, special apparatus, properties of the knitting yarn) of knitting samples TEXTBOOK To be announced. ASSESMENT To be announced.

11

Course Code: TKS 5009 Course Title: Determining the Quality Classification of Turkish Wools Level: Graduate Semester: Fall ECTS Credit:6 Status: Elective Hours a week: (2+1) Total Class Hours: 14 weeks x 3h. = 42h Instructor: Prof. Dr. Nilüfer ERDEM Instruction Language: Turkish PREREQUISITES None DESCRIPTION Objectives: The course aims to provide an introduction to definition of Turkish sheep and their wools, classification of sheep species according to their wool properties, and understanding of measurement and test methods for wool fibers. Learning outcomes:

This course is expected to help the student to understand the properties of wools of Turkish sheep. To develop the students’ analytical abilities and ability to present and criticize arguments.

To help the student to review the literatures

Contents: This course defines the classification of Turkish sheep according to their wool properties, wool properties of new species, properties and difference of carpet, rug and fabric wools, classification of wools in the world. The course also discuses the analysis of wools, measurement techniques for wool fiber etc. TEACHING AND LEARNING METHODS The course is thought in a lecture, class presentation and discussion format. All class members are expected to attend and both the lecture and seminar hours and take part in the discussion sessions. Besides the taught lecture, presentations are to be prepared by the students assigned for that week and presented to open a discussion session. TEXT BOOK

Wool Science and Technology, SW Simpson and G Crawshaw Woodhead Publishing 2002 Batı Anadolu’da Melezlemeyle Oluşturulan Başlıca Koyun Tiplerinin Yapağı ve Tops Özellikleri, Erdem, Nilüfer Yayın No: 2 DEÜ Tekstil Mühendisliği Bölümü, 1999

ASSESSMENT To be announced

12

Course Code: TKS 5010 Course Title: CAD/CAM IN CLOTHING INDUSTRY Level: Graduate Semester: Spring ECTS Credit: 8 Status: Elective HoursAWeek: (2+0) Total Class Hours: 14 weeks x 2h. = 28h. Instructor: Prof. Dr. Sevil Yesilpinar Assoc.Prof. Dr. Ender Yazgan Bulgun Instruction Language: Turkish

PREREQUISITIES

Latest developments in 2 and 3 dimensional CAD systems, knowledge of CAD systems techniques. DESCRIPTION

Objectives: The course aims to provide an introduction to 3D CAD Systems and understanding of the main techniques of pattern preparation in the computer.

Learning outcomes:

This course is expected to help the student how they can prepare garment patterns in the computer.

To give the students further information on 3D CAD systems, Body scanners and Made-to-Measure Systems

To give the students further information on cutters in CAD systems.

Contents: This course analyses 2D and 3D CAD systems, basic principles of preparing garment patterns. The course discusses the relationship between 2D CAD systems and 3D CAD systems. In that course, latest developments in 2 dimensional and 3 dimensional CAD systems are explained. I this course content, M.T.M. (Made to Measure) systems, 3 dimensional body scanners, CAD systems in cutting room, CAD systems in sewing room are mentioned .

TEACHING AND LEARNING METHOS

The course is taught in a lecture, class presentation and discussion format. Besides the taught lecture, group presentations are to be prepared by the groups assigned for that week and presented to open a discussion session. TEXTBOOK

CAD/CAM in Clothing And Textiles, Stephen Gray, 1998, Design Council, GoverPublishing Limited. CAD In Clothing and Textiles,Winifred Aldrich, 1992, BSP Professional Books Limited. Computers ın The Fashion Industry, Patrick Taylor, 1990,Heinemann Professional Publishing Limited.

ASSESSMENT

Homework Field Study Weekly Follow-up Reports Quiz Midterm Exam Final Exam Term Paper

13

Course Code: TKS 5012 Course Title: Further Analysis Of Textile Mechanisms Level: Graduate Semester: Autumn ECTS Credit: 8 Status: Elective Hours a week: (4+0) Total Class Hour: 56 Instructor: Prof.Dr.Arif KURBAK Instruction language: English

PREREQUISITIES None DESCRIPTION Objectives and Learning outcomes: This course aims at giving, graduate students some more knowledge in textile mechanisms so that they can be able to appreciate the finer points of them and also they can be able to tackle more complicated engineering problems. Contents: Introduction To Mechanisms, Rigid Bodies (Links), Kinematic Pairs (Joints), Kinematic Chain, Kinematic Scheme, Machine, Frictional drives and their textile applications; (Transmission of rotational motion between two discs, Belt drives, Variable-speed friction drives), Positive drives (Roller chain drives, Gear drives, Simple gear trains, planetary gear trains, the differential gear), Additional topics on the cam mechanisms and their textile applications, Classifications of cams, The linear and parabolic cams, The forces on the cam discs, The effect of friction on the cam load (this will be shown on knitting cam), The effect of linkage elasticity on the follower movement (this will be shown on the picking stick of a loom), Linkage Mechanisms, Basic Mechanisms (Four-Bar Mechanism , Grasshoff Criteria , Slider-Crank Mechanism, Inverted Slider -Crank Mechanism , etc.), Linkage Mechanisms, Motion analysis of linkage mechanism by the vector loop closure equation, The computer solutions of vector loop closure equations by Newton-Raphson Iteration Method, Velocity analysis of linkage mechanisms by differentiating of motion equations, Acceleration analysis of linkage mechanisms by differentiating of velocity equations TEACHİNG AND LEARNING METHODS The course is taught in a lecture, class presentation and discussion format. All class members are expected to attend and both the lecture and seminar hours and take part in the discussion sessions. Besides the taught lecture, group presentations are prepared by the groups and assigned for the week and presented to open a discussion session. TEXTBOOK Kurbak, A., Textile Machinery Mechanisms , Lecture Notes, 2004 . ASSESMENT To be announced.

14

Course Code: TKS 5013 Course Title: Unevenness and Fault Analysis in Textiles Level: Graduate Semester: Autumn ECTS Credit: 6 Status: Elective Hours a week: (2+1) Total Class Hours: 14 weeks x 3h. = 42h Instructor: Prof. Dr. Ayşe OKUR Instruction Language: Turkish PREREQUISITES To have a principal knowledge of fibre and yarn properties and yarn producing processes. DESCRIPTION Objectives: The aim of this course is to give knowledge about the reasons of the unevenness and the faults that occur on textiles because of different reasons and to provide understanding of analyses and measurement and evaluation methods and to explain the precautions that must be done to prevent these unevenness and faults. Learning outcomes:

To give theoretical and practical knowledge that provides the ability of determination of the sources of yarn unevenness and faults. To provide understanding of the relations between fibre properties and yarn unevenness and yarn faults. To provide making comparisons of measurement methods of yarn unevenness by thinking from different views. To direct the students to examine the precautions that must be taken to prevent fabric faults. To direct the students to think about the suitable approaches to evaluate the fabric quality objectively.

Contents: Definition and importance of unevenness. Addition of irregularities throughout the spinning process. Theoretical limit for the irregularity of fibre assemblies. Analysis of yarn unevenness and faults. Measurement and evaluation methods of yarn unevenness. Influence of periodic mass variations and faults on woven and knitted fabric appearance. Inspection, evaluation and classification of fabric faults. TEACHING AND LEARNING METHODS The course is taught by interactive methods and is supported by group studies and laboratory applications. TEXT BOOK To be announced. ASSESSMENT

Homework Laboratory study Midterm exam Final exam

15

Course Code: TKS5014 Course Title: Investigation of Longitudinal and Cross-Sectional Properties of Fibers Using Microscope Techniques

Level: Graduate Semester: Spring ECTS Credit: 6 Status: Elective Hours a Week: (2+2) Total Class Hours: 14 weeks * 4h. = 56h.

Instructor: Prof. Dr. Nilüfer Erdem Instruction Language: Turkish PREREQUISITIES

None DESCRIPTION Objectives: Longitudinal and cross-sectional appearance of fiber is examined using various microscope techniques such as Projection microscope, Photomicroscope, Polarized microscope and Electron microscopes). Preparation techniques are discussed for various microscopes.

Learning outcomes: To improve practical skills of students in examination of longitudinal and cross-sectional appearance of fibers using various microscopes, thus identification and determination of differences of fibers, and using these techniques by researchers is aimed.

Contents: Explanation of some microscope types (Photomicroscope, Scanning Electron Microscope (SEM), Polarized Microscope) and cross-section preparation techniques. Investigation of fiber cross-sectional and longitudinal appearance and identification of characteristics of fibers using some microscope types. TEACHING AND LEARNING METHOS The course is taught in a lecture and laboratory practice. All class members are expected to learn principles and systems of microscope and preparation techniques and to fulfill these techniques in the laboratory. TEXTBOOK 1. Tekstil Mikroskopisi, Yazıcıoğlu, G., E.Ü. Müh. Fakültesi Yayınları No:34, 1996 2. Microscopy of Textile Fibers, Graves, P.H., Royal microscopical Society Microscopy Handbooks, 1995 3. Atlas of Fibre Fracture and Damage to Textiles, Hearle, J.W.S., Lomas, B., Cooke, W.D., Woodhead Publishing/Textile Institute, 2nd ed., 1982 4. Pratical Fiber Identification, Hall, D.M., Auburn University, 2nd ed., 1982 5. Physical Principles of Electron Microscopy: An Introduction to TEM, SEM, and AEM, Egerton, R.F., Springer, 2005 6. Electron Microscopy and Analysis, Goodhew, P.J., third ed., Taylor&Francis, 2000 7. Light and Electron Microscopy, Ed. Slayter, H.S., Cambridge University Pres, 1992 ASSESSMENT

- Midterm Exam - Final Exam - Lab. Study

16

Course Code: TKS 5015 Course Title: Fiber Degradation and Assessment Methods

Level: Graduate Semester: Autumn ECTS Credit: 8 Status: Elective HoursAVeek:(2+2) Total Class Hours: 14 weeks * 4h.= 56h. Instructor:Assoc. Prof. Dr. Merih Sariisik Assist. Prof. Dr.Aysun Cireli Aksit

Instruction Language: Turkish

PREREQUISITIES None DESCRIPTION

Objectives: The course aims to provide knowledge of degradation of textile materials, their mechanisms and methods of assessing degradation.

Learning outcomes:

1. This course is expected to help the student to understand degradation and mechanisms.

2. To develop the students analytical abilities and ability to present and criticise arguments.

3. To give the students methods of assessing degradation.

Contents: - Definition of degradation - The importance of degradation - The causes of degradation - Degradation mechanisms (Mechanical, photo degradation, thermal, chemical, microbiological) - The effects of degradation (Mechanical, structural changes, morphology, visco-elasticity,

degree of polymerization, weight loss, thermal curves, chemical effects) - Methods of assessing degradation (Mechanical, chemical, thermal, intrumental methods) - The reduction of degradation - The uses of degradation - The factors causing damages and degradation in the textile finishing mills

TEACHING AND LEARNING METHOS

The course is taught in a lecture, class presentation and discussion format. All class members are expected to attend and both the lecture and seminar hours and take part in the discussion sessions. Besides the taught lecture, group presentations are to be prepared by the groups assigned for that week and presented to öpen a discussion session. TEXTBOOK

- Textile Degradation Textile Progress, Vol. 21, No:1/2, PW Harrison, 1991 - Chemical Processing of Fibers and Fabric, Functional Finishes, Part A, A. M. Lewin, S. Sello, 1983 - Tekstil Laboratuarı için Analitik Metodlar, İnci Orkun, SAGEM Yayinlari - Chemistry of Textile Industry, Carr. C. (ed.), 1995 - Quality Assessment of Textiles, 1993, Mahal, K.

ASSESSMENT

- Lab. Study - Midterm Exam - Final Exam - Term Paper

17

Course Code: TKS 5016 Course Title: Functional Textiles

Level: Graduate Semester: Spring ECTS Credit: 8 Status: Elective Hours a Week: (3+0) Total Class Hours: 14 weeks * 3h. = 42h.

Instructor: Assoc. Prof. Dr. Merih Sarıışık Assist. Prof. Dr. Aysun Cireli Aksit Instruction Language: Turkish

PREREQUISITIES

None DESCRIPTION

Objectives: to teach properties, end-uses and test methods of functional textiles. Learning outcomes: This course is expected to teach functional textiles and their usage areas. Contents: The functional textiles importance have been increasing rapidly in textile market because of competition, and gaining added values, and increasing market share. The consumers’ demands are not only defined by aesthetic properties and also functional properties have been playing an increasing role. Medical textiles, defence industrial textiles, construction textiles, coated textiles, protective clothes, filtration textiles, and textiles used in transportation and vehicles will be discussed in the course. TEACHING AND LEARNING METHOS

The course is taught in a lecture, class presentation and discussion format. All class members are expected to design a functional textile material. TEXTBOOK

1. Coated Fabrics Technology, Technomic Publishing Company,Inc.,U.S.A., 1985, ISBN: 87762-426-7 2. Mattila, H.R., Intelligent Textiles and Clothing, The Textile Institute, Woodhead Publishing Limıted,

England 3. Sen, A. K., Tech, M, 2001. Coated Textiles, Principles And Applications, Technical, Editor John

Damewood, ISBN: 1-58716-023-4. 4. Tao, X., Smart Fibres, Fabrics and Clothing, Woodhead Publishing Limited, England, 2001, ISBN: 0-

8493-1172-1 5. Horrocks, A.R., Anand, S.C., Handbook of Technical Textiles, Woodhead Publishing Limited,

England, 2000- ISBN: 1-85573-385-4 6. Raheel, M., Protective Clothing Systems and Materials, Marcel Dekker,Inc., New York, 1994, ISBN:0-

8247-9118-5 7. Anand, S.C., Kennedy,J.F., Miraftab,M., Rajendran,S., Medical Textiles and Biomaterials for

Healthcare, Woodhead Publishing Limited, England, 2006, ISBN: 1-85573-683-7 8. Anand, S.C., Medical Textiles, Woodhead Publishing Limited, England, 2001, ISBN: 1-85573-494X

ASSESSMENT

- Midterm Exam - Final Exam - Term Paper

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Course Code: TKS5017 Course Title: Productivity Criteria for Textile and Clothing Industry Level: Graduate Semester: Fall ECTS Credit:6 Status: Elective Hours a week: (2+0) Total Class Hours: 14 weeks x 2h. = 28h Instructor: Prof. Dr. Gülseren Kurumer Instruction Language: Turkish PREREQUISITES None DESCRIPTION Objectives: The lecture aims at increasing the productivity in textile and Clothing industries. Objective is to equip the students with the necessary background of this aim. Learning outcomes:

This course will recognize the factors affecting the productivity. The students will be aware of the use of these factors The student will have the tools to control these.

Contents: Definition, scope the importance of the productivity and factors affecting it. Production mediums Labor and manager Principles of work and technology Medium of workplace and management Flowsheet of working Payment systems Supply of raw material and accessories Construction of products Planning and production control Work-induced illnesses absence of worker and circulation of work-place. Technical problems and failer products.

TEACHING AND LEARNING METHODS Theoretical teaching by the instructor. TEXT BOOK

Manuscript von Prof. Löcker A. Mönchengladbach, Germany. Manuscript von Prof. Dr. Mustafa Nazmi Ercan, DEÜ, IZMIR.

ASSESSMENT Two midterm-examinations followed by a final examination which involves 50% share of each.

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Course Code: TKS 5019 Course Title: Textile Composites Level: Graduate Semester: Autumn ECTS Credit: 6 Status: Elective Hours a week: (3+0) Total Class Hours: 42h. Instructor: Prof. Dr. Arif Kurbak Instruction Language: English PREREQUISITIES None. DESCRIPTION

Objectives: The course aims to provide an introduction to the textile composites by examining the textile reinforcements, resins and manufacturing methods, also the applicaiton areas of the textile composites.

Learning outcomes:

1. This course is expected to help the textile engineering students to understand the textile structures’ behaviours and applications in the composites. With the background built with this course, the student will be able to go on further studies related with composites.

2. This course is expected to help the students of engineering departments other than textile engineering to learn about the textile structures and their behaviours, so that they can combine textile structures with other engineering fields.

Contents: This course gives a general overview of the textile composites, analyses the behaviour and the structure of textile reinforcements and the application areas. Examples of studies about the textile composites are given and discussed. TEACHING AND LEARNING METHODS

The course is taught in a lecture, class presentation and discussion format. All class members are expected to attend the lecture hours and take part in the discussion sessions. TEXTBOOK To be announced. ASSESSMENT

- Homework - Midterm Exam - Final Exam

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Course Code:TKS5021 Course Title: Value Analysis as a Product Development Tool in Textile and Clothing Industry.

Level: Graduate Semester: Autumn ECTS Credit: 6 Status: Elective HoursAWeek:(2+1) Total Class Hours: 14 weeks * 3h.= 42h. Instructor: Prof. Dr. Gülseren Kurumer Instruction Language: Turkish Prerequisities: None DESCRIPTION: Objectives : The course aims to introduce the general principles of value analysis,The connotation of Value and the application fields of value analysis. Learning outcomes: This Course aims to bring in skill by using Value analysis method at design stage of a textile and ready wear product. Contents: The meaning of product Value, The terms of value analysis,The main steps of Value Analysis, Steps of Workplan.Tecnics of Value analysis and examples from different fields. Teaching and Learning Methods: The principle method is to give lecture in course Topics.Literature survays and presantation on certain topics are given for understanding the using fields of value analyses. Text Book: L.D.Miles, “Value Engineering”.Verlag Moderne İndustrie 3.Auflage 1969. Karl Hans Demmer, “ Aufgaben und Praxis of Werth Analyse”.Verlag Moderne İndustrie,1970. Christmann Kurt, “ Gewinnverbesserung durch Werthanalyse”. 1973. Assesment: Homework Oral presantation Final Exam.

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Course Code: TKS 5023 Course Title: Advanced Finishing Technology

Level: Graduate Semester: Autumn ECTS Credit: 8 Status: Elective Hours a Week: (2+2) Total Class Hours: 14 weeks * 4h. = 56h.

Instructor: Assoc. Prof. Dr. Merih Sarıışık Assist. Prof. Dr. Aysun Cireli Aksit Instruction Language: Turkish

PREREQUISITIES

None DESCRIPTION

Objectives: to discuss and investigate new techniques in textile finishing.

Learning outcomes:

To aim teaching principles of advanced finishing technologies and improving practical skills of students

Contents: Despite of conventional techniques, many new technologies has been developed in textile finishing. Most important advantages of these techniques are saving of energy, water and chemicals by using minimum application and great diffusion. Also homogeneous and micro level operation can be achieved by these techniques. Thus textile materials gain different end uses. Nanotechnology, plasma technology, sol-gel technology and microencapsulation technology will be discussed in this course. TEACHING AND LEARNING METHOS

The course is taught in a lecture and laboratory practice. All class members are expected to learn principles and systems of advanced finishing techniques and to fulfill these techniques in the laboratory. TEXTBOOK

1. Pierre, A.C., Introduction to Sol-gel Processing, Kluwer Academic Publishers, 1998, Massachusetts, USA

2. Brinker, C.J., Scherer, G.W., Sol-gel Science, The Physics and Chemistry of Sol-gel Processing, Academic Pres, 1990, San Diego, California

3. Jolivet, J.P., Henry, M., Livage, J., Besche, E., Metal Oxide Chemistry and Synthesis, From Solution to Solid State, John Wiley & Sons, Ltd., 2003, London, UK, ISBN: 0471970565

4. Coated Fabrics Technology, Technomic Publishing Company,Inc.,U.S.A., 1985, ISBN: 87762-426-7

5. Mattila, H.R., Intelligent Textiles and Clothing, The Textile Institute, Woodhead Publishing Limıted, England

6. Benita, S., Microencapsulation, Marcel Dekker, Inc.,U.S.A., 1996, ISBN:0-8247-9703-5 7. Sen, A. K., Tech, M, 2001. Coated Textiles Principles And Applications, Technical Editor John

Damewood, ISBN : 1-58716-023-4. 8. Inagaki, N. “Plasma Surface Modification and Plasma Polymerization”, 1996, Lancaster-

Pensilvania (USA): Technomic Publishing Company, Inc., ISBN 1-56676-337-1

ASSESSMENT

- Midterm Exam - Final Exam - Lab. Study - Term paper

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Course Code: TKS 6001 Course Title: Engineering Design of Textiles Level: Graduate Semester: Fall ECTS Credit: 6 Status: Elective Hours a week: (2+2) Total Class Hours: 14 weeks x 4h. = 48h. Instructor: Prof. Dr. Güngör BAŞER Instruction Language: English PREREQUISITIES

Knowledge of textile technology. DESCRIPTION Objectives: This course aims at building, first, mathematical synthesis and optimization concepts for the solution of design problems, secondly, having introduced basic principles in the design of fabrics and garments. Learning outcomes:

This course aims at creating an understanding of design approach.

To develop a systematic application of design principles.

To develop practical skill in computer applications for textile design. Contents: Theory of Design. Design of Yarns to Fulfil Performance Requirements. Engineering Design of Single Woven Fabrics: Physical Design. Aesthetic Design Engineering Design of Figured Woven Fabrics. Engineering Design of Double Woven Fabrics. Linear Programming Methods Applied to Design of Fabrics. Principles of Garment Design: Basic Principles of Pattern Making. Standardization of Body Measurements and its Implementation in Garment Production. Computer Applications. TEACHING AND LEARNING METHOS

The principle method used is to give lectures in course topics and carry out discussions. Home works are also given to prepare design solutions and computer programmes. TEXTBOOK

Advanced Textile Design, Watson, W., Longmans, Green and Co., London, 1956 Dokuma Tekniği ve Sanatı Cilt II: Dokuma Kumaş Tasarımı, Başer, G., Punto Yayıncılık, İzmir, 2005

ASSESSMENT

Homework Midterm Exam Final exam

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Course Code: TKS 6002 Course Title: Dynamics of Textile Processes Level: Graduate Semester: Spring ECTS Credit: 8 Status: Elective Hours a week: (3+0) Total Class Hours: 14 weeks x 3h. = 42h. Instructor: Prof. Dr. Güngör BAŞER Instruction Language: English PREREQUISITIES

Intermediate level of calculus, knowledge of general mechanics and textile technology. DESCRIPTION Objectives: Dynamical aspects of carding and drawing based on statistical mechanics and those of spinning, weaving and knitting processes based on geometrical models, will be introduced. The course also aims at showing how textile processes are controlled by automatic control systems. Learning outcomes:

This course aims at creating an understanding of basic yarn and fabric manufacturing processes.

To develop an ability to analyse textile processes by applying mathematical methods.

To train students to use scientific approach to solve practical problems. Contents: Theories of Yarn Formation: Drafting Theory. Theory of Carding. Dynamics of the Spinning Balloon. Analysis of Yarn Irregularity. Theories of Fabric Formation: Greenwood’s Theory of Fabric Formation. Dynamics of the Knitting Action. Plate’s Theory of Fabric Formation. Automatic Control of Textile Processes: Control in Drafting. Control of the Carding Process. Control in Sizing. Control in Weaving. TEACHING AND LEARNING METHOS

The principle method used is to give lectures in course topics and carry out discussions. Home works are also given to solve problems. TEXTBOOK

Textile Engineering Processes, Nissan, A.H. Butterworths, Scientific Publications, London ,1959 Principles of Weaving, Marks, R., Robinson, A.T.C., The Textile Institute, Manchester, 1976 Yarn Production Theoretical Aspects, Grosberg, P., Iype, C., The Textile Institute, 1999

ASSESSMENT

Homework Midterm Exam Final exam

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Course Code: TKS6004 Course Title: Structure of Fibers Level: Graduate Semester: Spring ECTS Credit:6 Status: Elective Hours a week: (2+0) Total Class Hours: 14 weeks x 2h. = 28h Instructor: Prof. Dr. Nilüfer ERDEM Instruction Language: Turkish PREREQUISITES None DESCRIPTION Objectives: The course aims to provide an introduction to definition and fine structure of natural, regenerated and chemical fibers, and understanding of physical, chemical and morphological structures of fibers, analysis techniques such as X-ray diffraction, IR- spectra photometry etc. Learning outcomes:

This course is expected to help the student to understand the fine structures of textile fibers. To develop the students’ analytical abilities and ability to present and criticize arguments.

To help the student to review the literatures

Contents: This course defines natural, regenerated and chemical fibers. The course consists of definition of polymer, polymerization reactions, molecular orientation of fibers, anisotropy and birefringence in fibers, amorphous and crystalline structure of fibers. The course also discuses the analysis of fine structure of textile fibers with X-ray diffraction, IR- spectra photometry, differential thermal analysis etc. TEACHING AND LEARNING METHODS The course is thought in a lecture, class presentation and discussion format. All class members are expected to attend and both the lecture and seminar hours and take part in the discussion sessions. Besides the taught lecture, presentations are to be prepared by the students assigned for that week and presented to open a discussion session. TEXT BOOK

Physical Properties of Textile Fibres Morton, W.E. and Hearle, J.W.S. The Textile Institute 3rd Ed 1993 Tekstil Fiziği, Aslı Hockenberger, Alfa Basım Yayın- İstanbul 2004

ASSESSMENT To be announced

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Course Code: TKS6005 Course Title: Weak Point Analyses Level: Graduate Semester: Fall ECTS Credit:6 Status: Elective Hours a week: (2+0) Total Class Hours: 14 weeks x 2h. = 28h Instructor: Prof. Dr. Gülseren KURUMER Instruction Language: Turkish PREREQUISITES Fundamental knowledge of operating and managing systems. DESCRIPTION Objectives: The course aims to analyze the probable weakness in an enterprise with the point of 4M (Man-Machine Material, Method) Learning outcomes: This course is expected to help the students to gain a vision about the defects or organizations in the whole system with aspect of Machine, Material, Man and Method. Contents: This course

analyses the probable weak points which could be occurred in Man Machine Material Method

analyses the causes of a designated problem proposes the solutions for the different problems

Teaching and Learning Methods The course is taught in a lecture and discussion format. Textbook Manuscripts prepared by instructor. Literature surveys, prepared by the students, related to the subject which is given as a semester study. Assessment Semester study prensentation

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Course Code: TKS 6007 Course Title: Computer Graphic Designs Of Textile Structures Level: Graduate Semester: Autumn ECTS Credit: 6 Status: Elective Hours a week: (2+0) Total Class Hour: 28h Instructor: Prof.Dr.Arif KURBAK Instruction language: English

PREREQUISITIES None DESCRIPTION Objectıves and Learning outcomes: The objective of this course is to study the feasibilities of creating realistic images of textile fabric structures on a computer screen. These images will be a useful tool for Textile designers for visualizing their designs without them being actually produced on machines. Such an approach would be very cost effective as one could market the ideas using paper samples. Contents: Review of Previous Work on the curves of central axis of yarn in basic structures: Plain Knitted Fabric, 1x1 Rib Knitted Fabric, Purl Knitted Fabric, Knit, tuck and miss stitches in knitted fabrics, Woven Fabrics, Methods of building up of yarn surfaces on three dimensional yarn axes, Methods of obtaining 3D image views of fabrics on computer screen, etc., TEACHİNG AND LEARNING METHODS The course is taught in a lecture, class presentation and discussion format. All class members are expected to attend and both the lecture and seminar hours and take part in the discussion sessions. Besides the taught lecture, group presentations are prepared by the groups and assigned for the week and presented to open a discussion session. TEXTBOOK To be announced. ASSESMENT To be announced.

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Course Code:TKS 6008 Course Title: Color Physics and Industrial Applications Level: Graduate Semester: Spring ECTS Credit: 6 Status: Elective HoursAWeek: (2+0) Total Class Hours: 14 weeks x 2h. = 28h. Instructor: Assoc. Prof. Merih Sarıışık Instruction Language: Turkish PREREQUISITIES

None DESCRIPTION Objectives: The course aims to provide knowledge of color physics and color science applications in textile industry.

Learning outcomes:

This course is expected to help the student to understand color physics.

To develop the students analytical abilities and ability to present and criticize arguments.

To give the students practical and theoretical details color physics applications in textile industry.

Contents: This course consist of definition of color, the spectrophotometric specification of color, standard illuminants, methods of color matching, lightness , chromaticity coordinates, CIE system, whiteness formulations, color tolerances, color mixtures, determinations of tristimulus values, color differences, color- order systems, color matching functions and formulation of dyeing recipes. TEACHING AND LEARNING METHOS

The course is taught in a lecture, class presentation and discussion format. All class members are expected to attend and both the lecture and seminar hours and take part in the discussion sessions. Besides the taught lecture, group presentations are to be prepared by the groups assigned for that week and presented to open a discussion session. TEXTBOOK -Duran K.; Tekstilde Renk Ölçümü ve Reçete Çıkarma - E.Ü. Tekstil ve Konfeksiyon Araştırma Uygulama Merkezi Yayını, Yayın no: 17, İzmir-2001. - Anonim, Precise color communication-color control from perception to instrumentation; Minolta. -Mc Donald, 1987 Colour Physics for Industry, Society of Dyers and Colourists, 301p. -McAdam,D.L.,1981, Color Measurement Theme and Variations ,NewYork, 227p. -McLaren,K., 1986,The Colour Science of Dyes and Pigments, England, 209p. -Tordoff,M.,1984,The Servant of Colour, 221p. -Judd,D., Wyszecki,C.,1975,Color in Business, Science and Industry, -Anonim, 1985,An Introduction to Colour Theory and Its Application to Colour Specifications,Leverington,150p. -Billmeyer,F.,Saltzman,M., 1981,Principles of Color Technology, , New York, 240p. -Boer,J.D., 1981,Golden Jubilee of Colour ın the CIE, The Society of Dyers and Colorists,Bradford, 185p.

ASSESSMENT Lab. Study Midterm Exam Final Exam Term Paper

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Course Code: TKS 6009 Course Title: Fabric Objective Measurement Technology Level: Graduate Semester: Autumn ECTS Credit: 6 Status: Elective Hours a week: (2+0) Total Class Hours: 14 weeks x 2h. = 28h Instructor: Prof. Dr. Ayşe OKUR Instruction Language: Turkish PREREQUISITES To have a principal knowledge of statistical techniques to examine the relations between variables and a principal knowledge of physical and mechanical properties of fabrics. DESCRIPTION Objectives: The aim of this course is to give theoretical knowledge which provides understanding and analysis of the relations between fabric sensory properties and physical and mechanical properties of fabrics and to explain and evaluate some findings of different researches on these subjects. Learning outcomes:

To introduce fabric objective measurement technology. To encourage the students to make applications on this area by the help of the given knowledge from the literature about the studies on fabric handle. To encourage the students to learn and apply different statistical methods to examine the relations between fabric properties. To encourage the students to make researches using the given knowledge on fabric measurement technology.

Contents: Classification of fabric properties. The meaning of “Fabric Objective Measurement Technology (FOM)”. The evaluation of sensory properties: Subjective and objective measurement. The identification of objectively measurable properties related to fabric handle and quality. Objective measurements of other fabric sensory properties relevant to assessment of fabric handle and quality. The interpretation of FOM data. The possible applications of FOM technology to manufacturing operations and process and quality control. TEACHING AND LEARNING METHODS An interactive method which encourages the students to attend lectures and take part in discussions is applied in lectures. TEXT BOOK To be announced. ASSESSMENT

Homework Laboratory study Midterm exam Final exam

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Course Code: TKS 6014 Course Title: Enzyme Chemistry and Industrial Applications

Level: Graduate Semester: Autumn ECTS Credit: 6 Status: Elective HoursAWeek:(2+0) Total Class Hours:14 weeks * 2h.=28h. Instructor: Assoc. Prof. Dr. Merih Sariisik Instruction Language: Turkish PREREQUISITIES None DESCRIPTION

Objectives: The course aims to provide knowledge of enzyme chemistry and enzyme processes in textile industry.

Learning outcomes: 1. This course is expected to help the student to understand enzyme chemistry and how enzymes

work. 2. To develop the students analytical abilities and ability to present and criticise arguments. 3. To give the students details and hints of enzyme treatments in textile industry.

Contents: This course consist of chemical structure of proteins, properties of enzymes, common important enzymes and their industrial applications such as; desizing of cotton fabrics (amylase), scouring of cotton materials (pectinase, cellulase, lipase, protease), biopolishing of cotton fabrics (cellulase), biowash treatments of regenerated fibers (cellulase), antioxidizing treatments of bleaching liquor (catalase), stone washing of denim garments (cellulase), enzymatic treatments of wool fabric (protease), enzymatic retting of linen, hemp, ramie, and jute (pectinase, cellulase) and degumming of silk fibers (protease). TEACHING AND LEARNING METHOS

The course is taught in a lecture, class presentation and discussion format. All class members are expected to attend and both the lecture and seminar hours and take part in the discussion sessions. Besides the taught lecture, group presentations are to be prepared by the groups assigned for that week and presented to öpen a discussion session. TEXTBOOK

- Sarıışık, Ö.M., Tekstil Terbiye İşlemlerinde Enzimler, Dokuz Eylül Üniversitesi, Mühendislik Fakültesi Yayınları, No: 286, 2001, Izmir

- Eriksson, K.E., Cavaco-Paulo, A., Enzyme Applications in Fiber Processing, ACS Sypmposium Series, 1998, USA

ASSESSMENT

- Lab. Study - Midterm Exam - Final Exam - Term Paper

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Course Code: TKS6016 Course Title: Analytical Evaluation of Work in Textile & Clothing Industry Level: Graduate Semester: Spring ECTS Credit: 6 Status: Elective Hours a week: (2+0) Total Class Hours: 14 weeks x 2h. = 28h Instructor: Prof. Dr. Gülseren Kurumer Instruction Language: Turkish PREREQUISITES None DESCRIPTION Objectives: Analysis and evaluation of the work in the textile and clothing industry. As a result of this right payment and right allocation of work-force. Learning outcomes:

The students will learn the facts which are important for the evaluation of the work and consequently allocation of the right persons to the work and right payment to the working people.

Contents: Scope and the merits which are expected from the work-force. Methods of work evaluation. Evaluation of work on Global basis. Analytical evaluation of work. Explanation of the merits of work and qualification of it. Work evaluation according to Refa. Work evaluation according to Euler-Stevens and to others. Conversion to the evaluation of work to the payment. Graphical representation of work value number against amount of payment. Construction of merit profile of work. The importance and the use of the results obtained from the evaluation of the work in the right payment and right personal selection.

TEACHING AND LEARNING METHODS Theoretical teaching by the instructor. TEXT BOOK

Prof. Dr. Mustafa Nazmi Ercan. “Work and Timestudy” DEÜ. Nr.09.0000.9017000/DK.04.002.331

ASSESSMENT Evaluation is based on two midterm-examinations followed by a final examination which involves 50% share of each.

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Course Code: STA 6043 Course Title: Optimization Theory Level: Graduate Semester: Autumn ECTS Credit: 7 Status: Compulsory Hours a week: (3+0) Total Class Hour: 42h Instructor: Prof.Dr.Arif KURBAK Instruction language: English

PREREQUISITIES None DESCRIPTION Objectives and Learning outcomes: Optimization techniques are used in every engineering disciplines including Textile Engineering nowadays. This course aims at giving some basic knowledge in optimization to engineering students for improving their problem solving capacities and also for their better understanding of some new techniques such as PERT, CPM, Optimal Control Theory etc. Contents: Introduction to Optimization, Classical Optimization Techniques, Linear Programming, Linear Programming (Simplex Method), Nonlinear Programming(One-Dimensional Minimization Methods), Nonlinear Programming (Unconstrained Optimization Techniques), Nonlinear Programming (Constrained Optimization Techniques) TEACHİNG AND LEARNING METHODS The course is taught in a lecture, class presentation and discussion format. All class members are expected to attend and both the lecture and seminar hours and take part in the discussion sessions. Besides the taught lecture, group presentations are prepared by the groups and assigned for the week and presented to open a discussion session. TEXTBOOK Kurbak, A., Optimization Techniques, Lecture Notes, 2004. ASSESMENT To be announced.

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