1. SECOND CYCLE - MASTER'S DEGREE
  2. THE GRADUATE SCHOOL OF NATURAL AND APPLIED SCIENCES
  3. TEXTILE ENGINEERING DEPARTMENT
  4. 1221 Textile Engineering
Course Information Course Learning Outcomes Course's Contribution To Program ECTS Workload Course Details
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COURSE INFORMATION
Course CodeCourse TitleL+P HourSemesterECTS
TEK 529ADVANCED FINISHING TECHNOLOGIES3 + 01st Semester7,5

COURSE DESCRIPTION
Course Level Master's Degree
Course Type Elective
Course Objective 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.
Course Content Innovative technologies in textile processing will be studied except of convetional textile processes
Prerequisites No the prerequisite of lesson.
Corequisite No the corequisite of lesson.
Mode of Delivery Face to Face

COURSE LEARNING OUTCOMES
1It describes and explains nanotechnology, nanofibers, nanoporous materials, nanocomposites, carbon nanotubes and textile applications of nanotechnology.
2It describes and explains plasma, the type of plasma and tje applications of plasma in textile processes
3It describes and explains coating agents, their types and properties, lamination techniques and their properties.
4It describes and explains sol-gel technologies, their properties, gelling processes, phase transformations and the applications of sol-gel technologies
5It describes and explains microcapsulation methods, drug delivery processes and the microcapsule applications in textile processes.

COURSE'S CONTRIBUTION TO PROGRAM
PO 01PO 02PO 03PO 04PO 05PO 06PO 07PO 08PO 09PO 10PO 11PO 12PO 13
LO 0015224223244255
LO 0025224223255253
LO 0035224223254255
LO 0045224223245253
LO 0055224223254255
Sub Total25101020101015102322102521
Contribution5224223254254

ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION
ActivitiesQuantityDuration (Hour)Total Work Load (Hour)
Course Duration (14 weeks/theoric+practical)14342
Hours for off-the-classroom study (Pre-study, practice)14570
Mid-terms12020
Final examination16363
Total Work Load

ECTS Credit of the Course





195

7,5
COURSE DETAILS
 Select Year   


 Course TermNoInstructors
Details 2023-2024 Fall1NURHAN ONAR ÇAMLIBEL


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Course Details
Course Code Course Title L+P Hour Course Code Language Of Instruction Course Semester
TEK 529 ADVANCED FINISHING TECHNOLOGIES 3 + 0 1 Turkish 2023-2024 Fall
Course Coordinator  E-Mail  Phone Number  Course Location Attendance
Prof. Dr. NURHAN ONAR ÇAMLIBEL nonar@pau.edu.tr MUH A0154 %
Goals 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.
Content Innovative technologies in textile processing will be studied except of convetional textile processes
Topics
WeeksTopics
1 NANOTECHNOLOGY, Description, Nanofibers, Nanoparticles, Nanoporous materials, Nanocomposites, Carbon nanotubes, Textile applications at nanotechnology
2 NANOTECHNOLOGY, Description, Nanofibers, Nanoparticles, Nanoporous materials, Nanocomposites, Carbon nanotubes, Textile applications at nanotechnology-Continue
3 PLASMA TECHNOLOGY, Description, Plasma types, Textile application of plasma technologies ( Hidrophilicity, Hidrophobicity, Water repellency, Flame retardancy, Antifelting, Antibacterial properties, Other modification processes
4 PLASMA TECHNOLOGY, Description, Plasma types, Textile application of plasma technologies ( Hidrophilicity, Hidrophobicity, Water repellency, Flame retardancy, Antifelting, Antibacterial properties, Other modification processes- Continue
5 COATİNG AND LAMINATION TECHNOLOGIES, Coating agents and their properties, The types of coating, Physical properties of coating products, Using area of coating products, Lamination techniques, The types and properties of membranes, Using area of laminated products, Laboratory applications
6 COATİNG AND LAMINATION TECHNOLOGIES, Coating agents and their properties, The types of coating, Physical properties of coating products, Using area of coating products, Lamination techniques, The types and properties of membranes, Using area of laminated products, Laboratory applications-Continue
7 COATİNG AND LAMINATION TECHNOLOGIES, Coating agents and their properties, The types of coating, Physical properties of coating products, Using area of coating products, Lamination techniques, The types and properties of membranes, Using area of laminated products, Laboratory applications-Continue
8 Midterm exam
9 SOL-GEL TECHNOLOGY, Description, The chemistry of precusor solutions, Colloidal particles and solles, Gellation, Gels, Phase transformation, Ceramic annealing for sol-gel processing, The applications of sol-gel process, The textile applications of sol-gel processing (Dyeing, Antiwrinkle, Flame retardancy, Water repellency, UV protectivity, Conductive textiles, Self-cleaning textiles)
10 SOL-GEL TECHNOLOGY, Description, The chemistry of precusor solutions, Colloidal particles and solles, Gellation, Gels, Phase transformation, Ceramic annealing for sol-gel processing, The applications of sol-gel process, The textile applications of sol-gel processing (Dyeing, Antiwrinkle, Flame retardancy, Water repellency, UV protectivity, Conductive textiles, Self-cleaning textiles)-Continue
11 SOL-GEL TECHNOLOGY, Description, The chemistry of precusor solutions, Colloidal particles and solles, Gellation, Gels, Phase transformation, Ceramic annealing for sol-gel processing, The applications of sol-gel process, The textile applications of sol-gel processing (Dyeing, Antiwrinkle, Flame retardancy, Water repellency, UV protectivity, Conductive textiles, Self-cleaning textiles)-Continue
12 MICROENCAPSULATION, Description, Microencapsulation methods (Interface polymerization, Sprey-dry, Embedding in cyclodextrine, Phase separation method), Drug delivery (Mechanic, pH changing, Biodegradation), Textile Applications of microencapsulation technolgy (Cosmetic applications, Drug applications, Phase change materials, Photochromic and thermochromic materials, Flame retardancy applications, Dyeing applications (liposoms), Secret marking products), Laboratory applications
13 MICROENCAPSULATION, Description, Microencapsulation methods (Interface polymerization, Sprey-dry, Embedding in cyclodextrine, Phase separation method), Drug delivery (Mechanic, pH changing, Biodegradation), Textile Applications of microencapsulation technolgy (Cosmetic applications, Drug applications, Phase change materials, Photochromic and thermochromic materials, Flame retardancy applications, Dyeing applications (liposoms), Secret marking products), Laboratory applications-Continue
14 MICROENCAPSULATION, Description, Microencapsulation methods (Interface polymerization, Sprey-dry, Embedding in cyclodextrine, Phase separation method), Drug delivery (Mechanic, pH changing, Biodegradation), Textile Applications of microencapsulation technolgy (Cosmetic applications, Drug applications, Phase change materials, Photochromic and thermochromic materials, Flame retardancy applications, Dyeing applications (liposoms), Secret marking products), Laboratory applications-Continue
Materials
Materials are not specified.
Resources
ResourcesResources Language
1. Pierre, A.C., Introduction to Sol-gel Processing, Kluwer Academic Publishers, 1998, Massachusetts, USAEnglish
2. Brinker, C.J., Scherer, G.W., Sol-gel Science, The Physics and Chmistry of Sol-gel Processing, Academic Pres, 1990, San Diego, CaliforniaEnglish
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: 0471970565English
4. Coated Fabrics Technology, Technomic Publishing Company,Inc.,U.S.A., 1985, ISBN: 87762-426-7English
5. Mattila, H.R., Intelligent Textiles and Clothing, The Textile Institute, Woodhead Publishing Limıted, EnglandEnglish
6. Benite, S., Microencapsulation, Marcel Dekker, Inc.,U.S.A., 1996, ISBN:0-8247-9703-5English
7. Sen, A. K., Tech, M, 2001. Coated Textiles Principles And Applications, Technical Editor John Damewood, ISBN : 1-58716-023-4English
8. Inagaki, N. “Plasma Surface Modification and Plasma Polymerization”, 1996, Lancaster-Pensilvania (USA): Technomic Publishing Company, Inc., ISBN 1-56676-337-1English
9. Cireli, A., Kutlu (Kiliç), B. & Mutlu, M., Journal of Applied Polymer Science, 2007, Vol.104, 2318-2322English
10. Akovali, G. & Gundogan, G., Journal of Applied Polymer Science, 1990, Vol. 41, 2011-2019English
11. Chaivan, P., Pasaja, N., Boonyawan, D., Suanpoot, P. & Vilaithong, T., Surface & Coatings Technology, 193, 2005, 356– 360English
12. Li, R., Ye, L. & Mai, Y.W., Composites Part A, 28A, 1997, 73-86English
13. Molina, R., Espinos, J.P., Yubero, F., Erra, P. & Gonzalez-Elipe, A.R., Applied Surface Science, 252, 2005, 1417-1429English
14. Paulussen, S., Vangeneugden, D., Goossens, O. & Dekempeneer, E., Materials Research Society Symposium Proceedings, Vol. 724, Materials Research Society, 2002 English
15. Yuranova, T., Rincon, A.G., Bozzi, A., Parra, S., Pulgarin, C., Albers, P. & Kiwi, J., Journal of Photochemistry and Photobiology A: Chemistry, 161, 2003 27–34English
16. Wei, Q., Li, Q., Wang, X., Huang, F. & Gao, W. Polymer Testing, 25, 2006, 717–722English
Course Assessment
Assesment MethodsPercentage (%)Assesment Methods Title
Final Exam50Final Exam
Midterm Exam50Midterm Exam
L+P: Lecture and Practice
PQ: Program Learning Outcomes
LO: Course Learning Outcomes