1. FIRST CYCLE - BACHELOR'S DEGREE
  2. FACULTY OF ENGINEERING
  3. TEXTILE ENGINEERING DEPARTMENT
  4. 251 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
TENG 515NANOTECHNOLOGY APPLICATIONS IN TEXTILE2 + 06th Semester4

COURSE DESCRIPTION
Course Level Bachelor's Degree
Course Type Elective
Course Objective There are a lot of innovative technologies in textile processes except of conventional applications. Their important advantages are the applying of minimum level of chemical agents, high penetration, chemical and water saving, Moreover this methods provides homogenity in micro level and processibility. Because of that, various using areas can be obtained for textile materials. In this course, nanotechnology, electrospinning as nanotechnological application area, plasma technologies, sol-gel technologies and microcapsulation technologies will be investigated.
Course Content Describing of nanotechnology and studies of nanotechnological applications in textile pretreatment 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 electrospinning methods, applications and properties
3It describes and explains plasma, the type of plasma and tje applications of plasma in textile processes
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 13PO 14PO 15PO 16PO 17PO 18PO 19PO 20
LO 0015224223244255       
LO 0025224223255253       
LO 0035224223254255       
LO 0045224223245253       
LO 0055224223254255       
Sub Total25101020101015102322102521       
Contribution52242232542540000000

ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION
ActivitiesQuantityDuration (Hour)Total Work Load (Hour)
Course Duration (14 weeks/theoric+practical)14228
Hours for off-the-classroom study (Pre-study, practice)14114
Mid-terms13030
Final examination13232
Total Work Load

ECTS Credit of the Course





104

4
COURSE DETAILS
 Select Year   


 Course TermNoInstructors
Details 2016-2017 Spring1NURHAN ONAR ÇAMLIBEL
Details 2015-2016 Spring1NURHAN ONAR ÇAMLIBEL
Details 2014-2015 Summer1NURHAN ONAR ÇAMLIBEL
Details 2014-2015 Summer1NURHAN ONAR ÇAMLIBEL
Details 2014-2015 Spring1YÜKSEL İKİZ
Details 2011-2012 Spring1NURHAN ONAR ÇAMLIBEL


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Course Details
Course Code Course Title L+P Hour Course Code Language Of Instruction Course Semester
TENG 515 NANOTECHNOLOGY APPLICATIONS IN TEXTILE 2 + 0 1 English 2016-2017 Spring
Course Coordinator  E-Mail  Phone Number  Course Location Attendance
Prof. Dr. NURHAN ONAR ÇAMLIBEL nonar@pau.edu.tr MUH A0335 %
Goals There are a lot of innovative technologies in textile processes except of conventional applications. Their important advantages are the applying of minimum level of chemical agents, high penetration, chemical and water saving, Moreover this methods provides homogenity in micro level and processibility. Because of that, various using areas can be obtained for textile materials. In this course, nanotechnology, electrospinning as nanotechnological application area, plasma technologies, sol-gel technologies and microcapsulation technologies will be investigated.
Content Describing of nanotechnology and studies of nanotechnological applications in textile pretreatment processes
Topics
WeeksTopics
1 Nanotechnology Description, nanotechnology applications
2 Nanofibers, Nanoparticles, Nanoporous materials
3 Nanofibers, Nanoparticles, Nanoporous materials
4 Nanocomposites, Carbon nanotubes, textile applications at nanotechnology
5 Sol-gel Technology, Description, preparation of sols and chemistry, the chemistry of precusor solutions, colloidal particles and sols, gellation, gels, phase transformation, heating and annealing processes for sols, 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)
6 Sol-gel Technology, Description, preparation of sols and chemistry, the chemistry of precusor solutions, colloidal particles and sols, gellation, gels, phase transformation, heating and annealing processes for sols, 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)
7 Sol-gel Technology, Description, preparation of sols and chemistry, the chemistry of precusor solutions, colloidal particles and sols, gellation, gels, phase transformation, heating and annealing processes for sols, 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)
8 Midterm exam
9 Plasma technolgy, description, plasma types, textile application of plasma technologies (Hidrophilicity, Hidrophobicity, Water repellency, Flame retardancy, Antifelting, Antibacterial properties, Other modification processes)
10 Plasma technolgy, description, plasma types, textile application of plasma technologies (Hidrophilicity, Hidrophobicity, Water repellency, Flame retardancy, Antifelting, Antibacterial properties, Other modification processes)
11 Plasma technolgy, description, plasma types, textile application of plasma technologies (Hidrophilicity, Hidrophobicity, Water repellency, Flame retardancy, Antifelting, Antibacterial properties, Other modification processes)
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
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
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
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 : 1-58716-023-4.English
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 Exam40Final Exam
Midterm Exam40Midterm Exam
Attendance to Lesson20Attendance to Lesson
L+P: Lecture and Practice
PQ: Program Learning Outcomes
LO: Course Learning Outcomes