Türkçe English Curriculum Key Learning Outcomes
Integrated PhD Program in Textile Engineering
General Description
1
Brief History
Bursa Uludag University, Institute of Natural Sciences began educational activities in 1982 and up to date, over 250 students graduated from Textile Engineering Department.
2
Qualification Awarded
The program is subjected to a 300 ECTS credits of degree system in higher education. Doctorate (Ph.D.) Degree in Textile Engineering is awarded to the graduates who have completed all the requirements in the program.
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Level of Qualification
Third Cycle
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Specific Admission Requirements
Bachelor´s degree candidates can apply to the integrated Ph.D. program. The application depends on the compatibility of the undergraduate diploma and the doctorate program. Candidates must have a graduation grade point average of at least 3.00 or an equivalent score out of the 4-point system, have the required score from foreign language exams (UDS, KPDS, TOEFL, etc.), and have at least 80 points from the ALES Exam.
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Specific arrangements for the recognition of prior learning
The provisions in “Regulation on Transfer among Associate and Undergraduate Degree Programs, Double Major, and Subspecialty and the Principals of Credit Transfer among Institutions in Higher Education Institutions” are applied.
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Qualification Requirements and Regulations
The graduation requirement for the students in the integrated doctorate program consists of a total of at least 300 ECTS credits, including at least fourteen courses, a seminar, a proficiency exam and thesis work. All the students are required to prepare a thesis and defend it against a jury. It is also required to fulfill the publication or scientific activity requirement determined by the Senate.
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Profile of The Programme
The aims of the program;
1.Improving skills for access to information and technology.
2.Increasing the number of national or international publications
3.Increasing the number of Industry-funded research projects
4.Using modern engineering methods for engineering design and analysis
5.Gaining the ability to comment on scientific events with a broader and deeper perspective
6.Improving the ability to reach new syntheses
7.Giving students the ability to conduct independent research
At the Department of Textile Engineering integrated Ph.D. program educational plan, students take required and elective courses in the relevant graduate program. Students must give a seminar and prepare a Ph.D. thesis.
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Key Learning Outcomes & Classified & Comparative
1. Identifying, analyzing, modeling and solving textile engineering problems
2. Accessing to scientific data, interpretation, and presentation skills
3. Designing and conducting experiments, analyzing and interpreting the results of experiments
4. Having an understanding of professional ethics and responsibility
5. Gaining the ability to comment scientific events with a broader and deeper perspective
6. Ability to use basic science and engineering knowledge to solve problems
7. Ability to develop the production efficiency and product quality
8. Ability to do independent research
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Occupational Profiles of Graduates With Examples
Major fields of study of graduates of the department can be listed as: manufacturing sector, consulting companies, company representatives, various public institutions, and universities.
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Access to Further Studies
Graduates who successfully completed doctorate degree may apply to both in the same or related disciplines in higher education institutions at home or abroad to get a position as an academic staff or to governmental R&D centers to get an expert position.
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Examination Regulations, Assessment and Grading
This section is explained in the courses description and implementation forms.
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Graduation Requirements
The graduation requirement for the students in the integrated doctorate program consists of a total of at least 300 ECTS credits, including at least fourteen courses, a seminar, a proficiency exam and thesis work. All the students are required to prepare a thesis and defend it against a jury. It is also required to fulfill the publication or scientific activity requirement determined by the Senate.
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Mode of Study
Full-Time
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Address and Contact Details
Tekstil Mühendisliği Anabilim Dalı Başkanı Prof.Dr. Y. Dilek KUT
Bursa Uludağ Üniversitesi Mühendislik Fakültesi Tekstil Mühendisliği Bölümü Görükle Kampüsü 16059 Görükle/Bursa
Tel: 0090 224 2942041
Faks: 0090 224 2941903
eposta: dilek@uludag.edu.tr
Program ve Bologna Koordinatörü Doç. Dr. Serpil KORAL KOÇ
Bursa Uludağ Üniversitesi Mühendislik Fakültesi Tekstil Mühendisliği Bölümü Görükle Kampüsü 16059 Görükle/Bursa
Tel: 0090 224 2942065
Faks: 0090 224 2941903
eposta: skoral@uludag.edu.tr
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Facilities
Bursa Uludag University, Faculty of Engineering, Department of Textile Engineering continues undergraduate and graduate studies with a staff of 17 professors, 6 associate professors, 3 assistant professors, 1 lecturer, 4 research assistants, and 1 technical staff. Our department which is located at the Görükle campus of the university, continues its activity at the faculty of engineering building in which there are classrooms and offices and also there are offices at the textile engineering laboratory building. At the textile engineering laboratory building, offices belonging to the research assistants, Fiber, Textile Chemistry, Physical Analysis, Chemical Analysis, Spinning Technology, Weaving Technology, Knitting Technology, Finishing Technology and Clothing Technology laboratories which includes equipment, instruments and software, are available.
1. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
TEK5001 APPLIED MATHEMATICS Compulsory 3 0 0 6
TEK5005 EXPEIMENTAL DESIGN IN TEXTILE RESEARCH Compulsory 3 0 0 6
TEK6181 ADVANCED TOPICS IN PHD THESIS I Compulsory 4 0 0 5
TEK6191 THESIS CONSULTING I Compulsory 0 1 0 1
Click to choose optional courses. 12
Total 30
2. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
TEK6182 ADVANCED TOPICS IN PHD THESIS II Compulsory 4 0 0 5
TEK6192 THESIS CONSULTING II Compulsory 0 1 0 1
Click to choose optional courses. 24
Total 30
3. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
TEK6183 ADVANCED TOPICS IN PHD THESIS III Compulsory 4 0 0 5
TEK6193 THESIS CONSULTANTS III Compulsory 0 1 0 1
Click to choose optional courses. 24
Total 30
4. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
FEN5000 RESEARCH TECHNIQUES AND PUBLICATION ETHICS Compulsory 2 0 0 2
FEN6002 TECHNOLOGY TRANSFER, R-D AND INNOVATION Compulsory 2 0 0 2
TEK6174 SEMINAR Compulsory 0 2 0 2
TEK6184 ADVANCED TOPICS IN PHD THESIS IV Compulsory 4 0 0 5
TEK6194 THESIS CONSULTANTS IV Compulsory 0 1 0 1
Click to choose optional courses. 18
Total 30
5. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
TEK6185 ADVANCED TOPICS IN PHD THESIS V Compulsory 4 0 0 5
TEK6195 THESIS CONSULTING V Compulsory 0 1 0 15
YET6177 PHD PROFICIENCY EXAMINATION Compulsory 0 0 0 10
Total 30
6. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
TEK6186 ADVANCED TOPICS IN PHD THESIS VI Compulsory 4 0 0 5
TEK6196 THESIS CONSULTING VI Compulsory 0 1 0 25
Total 30
7. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
TEK6187 PHD SPECIALISED FIELD COURSE VII Compulsory 4 0 0 5
TEK6197 THESIS CONSULTING VII Compulsory 0 1 0 25
Total 30
8. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
TEK6188 PHD SPECIALISED FIELD COURSE VIII Compulsory 4 0 0 5
TEK6198 THESIS CONSULTING VIII Compulsory 0 1 0 25
Total 30
9. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
TEK6189 ADVANCED TOPICS IN PHD IX Compulsory 4 0 0 5
TEK6199 PHD THESIS IX Compulsory 0 1 0 25
Total 30
10. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
TEK6190 SPECIAL TOPICS IN PHD THESIS X Compulsory 4 0 0 5
TEK6200 PHD THESIS CONSULTING X Compulsory 0 1 0 25
Total 30
1. Semester Optional Courses
Course Code Course Title Type of Course T1 U2 L3 ECTS
TEK5003 THEORY OF COLOURATION OF TEXTILE MATERIALS Optional 3 0 0 6
TEK5007 FANCY YARN TECHNOLOGY Optional 3 0 0 6
TEK5015 BEST AVAILABLE TECHNOLOGY IN TEXTILE FINISHING I Optional 3 0 0 6
TEK5019 PLASMA APPLICATION TO TEXTILE MATERIALS Optional 3 0 0 6
TEK5021 YARN GEOMETRY Optional 3 0 0 6
TEK5023 YARN DYEING TECHNOLOGY Optional 3 0 0 6
TEK5025 KNITTED FABRIC DESIGN AND PRODUCT DEVELOPMENT Optional 3 0 0 6
TEK5027 COMPUTER CONTROL SYSTEM DESIGN IN TEXTILES Optional 3 0 0 6
TEK5031 CLOTHING COMFORT Optional 3 0 0 6
TEK5035 SURFACE PROPERTIES AND MODIFICATION OF TEXTILE FIBERS Optional 3 0 0 6
TEK5037 POST OPERATIONS IN YARN TECHNOLOGY Optional 3 0 0 6
TEK5039 MODERN CHARACTERIZATION METHODS IN ENGINEERING APPLICATION Optional 3 0 0 6
TEK5041 WOVEN FABRIC GEOMETRY AND MECHANICS Optional 3 0 0 6
TEK5043 PHYSICAL POLYMER SCIENCE Optional 3 0 0 6
TEK5045 CLOTHING QUALITY Optional 3 0 0 6
TEK5047 KNITTED TECHNICAL TEXTILES Optional 3 0 0 6
TEK5049 CHEMISTRY OF POLYMERS Optional 3 0 0 6
TEK5051 PRODUCTION PLANNING AND COST IN COTTON SPINNING Optional 3 0 0 6
2. Semester Optional Courses
Course Code Course Title Type of Course T1 U2 L3 ECTS
TEK5002 COLOUR CHEMISTRY Optional 3 0 0 6
TEK5004 MECHANICAL PROPERTIES OF TEXTILE FIBERS Optional 3 0 0 6
TEK5006 ADVANCED YARN TECHNOLOGY Optional 3 0 0 6
TEK5008 FIBER REINFORCED COMPOSITE MATERIALS Optional 3 0 0 6
TEK5012 TEXTILE FINISHING AUXILLIARIES Optional 3 0 0 6
TEK5016 BEST AVAILABLE TECHNOLOGY IN TEXTILE FINISHING II Optional 3 0 0 6
TEK5018 DIGITAL PRINTING TECHNOLOGIES AND TEXTILE APPLICATION Optional 3 0 0 6
TEK5024 TEXTILE COATING AND LAMINATING TECHNOLOGIES Optional 3 0 0 6
TEK5030 NEW SPINNING SYSTEMS Optional 3 0 0 6
TEK5032 FUNCTIONAL FINISHING Optional 3 0 0 6
TEK5036 TECHNICAL TEXTILE YARNS Optional 3 0 0 6
TEK5040 FUNCTIONAL POLYMERS Optional 3 0 0 6
TEK5042 ADVANCED WOVEN FABRIC DESIGN TECHNIQUES AND STRUCTURES Optional 3 0 0 6
TEK5044 REACTION MECHANISMS ON TEXTILE TREATMENT Optional 3 0 0 6
TEK5046 PROTECTIVE CLOTHING SYSTEMS Optional 3 0 0 6
TEK5048 RESEARCH METHODOLOGY IN TEXTILES Optional 3 0 0 6
TEK5050 ADVANCED CONCEPTS IN MATERIALS SCIENCE Optional 3 0 0 6
3. Semester Optional Courses
Course Code Course Title Type of Course T1 U2 L3 ECTS
TEK6001 THEORY OF FIBRE FORMATION Optional 3 0 0 6
TEK6009 JEO-TEXTILE MATERIALS Optional 3 0 0 6
TEK6011 INDUSTRIAL LAUNDRY TECHNOLOGY Optional 3 0 0 6
TEK6013 NEW TECHNOLOGIES IN TEXTILE FINISHING Optional 3 0 0 6
TEK6015 ADVANCED CHARACTERIZATION METHODS IN ENGINEERING APPLICATION Optional 3 0 0 6
TEK6017 APPLICATIONS OF NONWOVENS IN TECHNICAL TEXTILES Optional 3 0 0 6
TEK6019 POLYMER RHEOLOGY AND PROCESSES Optional 3 0 0 6
TEK6021 OBJECTIVE EVALUATION OF FABRIC HAND Optional 3 0 0 6
TEK6023 SUSTAINABILITY IN TEXTILES Optional 3 0 0 6
TEK6025 WOVEN FABRIC TRIBOLOGY Optional 3 0 0 6
TEK6027 HIGH FREQUENCY HEATING TECH.AND TEXTILE APPLICATIONS Optional 3 0 0 6
TEK6029 THIN FILM COATING TECHNOLOGIES Optional 3 0 0 6
TEK6031 SURFACE AND INTERFACE OF MATERIALS Optional 3 0 0 6
TEK6033 COLOUR ORDER SYSTEMS Optional 3 0 0 6
TEK6035 CURRENT TECHNICAL FABRIC APPLICATIONS Optional 3 0 0 6
TEK6037 OPEN END ROTOR SPINNING Optional 3 0 0 6
4. Semester Optional Courses
Course Code Course Title Type of Course T1 U2 L3 ECTS
TEK6006 WEAVING MACHINERY MECHANICS Optional 3 0 0 6
TEK6008 MECHANICAL PROPERTIES OF YARNS Optional 3 0 0 6
TEK6010 COLOUR PHYSICS Optional 3 0 0 6
TEK6012 TEXTILE MATERIALS FOR BIOMEDICAL APPLICATION Optional 3 0 0 6
TEK6016 SCIENTIFIC WRITING Optional 3 0 0 6
TEK6018 POLYMER NANOCOMPOSITES Optional 3 0 0 6
TEK6020 ADVANCED REACTION MECHANISMS ON TEXTILE TREATMENT Optional 3 0 0 6
TEK6024 NANO MATERIALS APPLICATIONS AND CHARACTERIZATION Optional 3 0 0 6
TEK6026 SUSTAINABLE DESIGN IN TEXTILES Optional 3 0 0 6
Bologna İletişim
Mail : bologna@uludag.edu.tr
Tasarım & Kodlama
Bilgi İşlem Daire Başkanlığı © 2015
otomasyon@uludag.edu.tr