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SYLLABUS FOR
Polymer Blends
Fall, 2001
Friday 9:00 - 11:50 am , classroom: the department seminar room (44-212)
Professor:
Dae Su Kim office)44-345 Tel)261-2371 e-mail: dskim@chungbuk.ac.kr
Office Hours:
e-mail
if possible, Monday pm 2-4
Textbook:
Polymer Blends Vol. I and II by D. R. Paul, John Wiley & Sons, New York 2000
References:
Polymer Blends by D. R. Paul and S. Newman, Academic Press, New York 1978
Polymer Blends and Composites by J. A. Mason and L. H. Sperling, Plenum Press, New York 1976
Interpenetrating Polymer Networks and Related Materials by L. H. Sperling, Plenum Press, New York 1981
Polymer-Polymer Miscibility by O. Olabisi et al., Academic Press, New York 1979
Multicomponent Polymer Materials by D. R. Paul and L. H. Sperling, ACS, Washington 1986
Polymer Alloys and Blends by L. A. Utracki, Oxford Univ. Press, London 1990
Interpenetrating Polymer Networks by L. H. Sperling et al., ACS, Washington 1994
Advances in Polymer Blends and Alloys Technology (vol.5) by K. Finlayson, Technomic, 1994
Polymer Blends and Alloys by Shonaike, Marcel Dekker, New York 1999
Plastic Materials 7th ed. by Brydson, Prentice-Hall, New York 1999
Links to the following:
Lecture Schedule
Lecture Notes
Course Objectives
Special Features
Policies and Procedures
Term Projects and Homework Assignments
Other Interesting Web Sites
Lecture Schedule
Click here to see the lecture schedule
Lecture Notes
Part. 1 Introduction to Polymeric Blends
Part. 2 Thermodynamics
Part. 3 Characterization
Part. 4 Structure Formation
Part. 5 Mechanical Properties and Fracture Resistance
Part. 6 Blending for Specific Performance
Part. 7 Reinforced Blends
Part. 8 Elastomeric Blends
Part. 9 Recycling
Course Objectives:
1. To develop a fundamental understanding of polymer blend materials.
2. To learn how to choose proper polymer blend materials for specific applications.
3. To learn how to formulate polymer blend materials to improve their properties.
Special Features:
1. Relationships to Polymer Engineering Practice
Every attempt will be made to relate the information developed in the class to the real world of polymeric materials.
Policies and Procedures:
1. Basis for Course Grade
- Exams 30%
- Term Projects 60%
- Attendance 10%
- Total 100%
2. Exams
Exams will be individual projects. Exams will be "closed book".
Dec. ?? * Final Exam.
3. Term Projects
Term Projects and other class assignments can be found below for each class period of the semester. Term projects will be collected on the due date for grading. No late assignments will be accepted.
Term Projects and Homework Assignments:
* Term projects will be given and students should give a talk on their projects during class.
* term paper assignment; (due on ?????)
00000000 : Polymer Engineering and Science, 38(7), pp.1085 (1998)
* Presentation schedule;
Sep. 21 (2001224001); Chapter 5 of Polymer Blends
Sep. 28 (2000225081); Chapter 6 of Polymer Blends
Oct. 5 (2001224002); Chapter 7 of Polymer Blends
Oct. 12 (2000110003); Chapter 10 of Polymer Blends
Oct. 19 (2001118001); Chapter 13 of Polymer Blends
Oct. 26 (2001224004); Chapter 16 of Polymer Blends
Nov. 2 (2000225082); Chapter 17 of Polymer Blends
Nov. 9 (2001224001); Chapter 21 of Polymer Blends
Nov. 16 (2000225081); Chapter 23 of Polymer Blends
Nov. 23 (2001224002); Chapter 29 of Polymer Blends
Nov. 30 (2000110003); Chapter 31 of Polymer Blends
Dec. 7 (2001118001); Chapter 32 of Polymer Blends
Dec. 14 (2001224004); Chapter 34 of Polymer Blends
Dec. 21 (2000225082); Chapter 36 of Polymer Blends