Course title
D0190100
Physical Properties of Polymers

 naga naofumi Click to show questionnaire result at 2017
Course description
Polymers have physical and chemical charcteristics, which are not observed in low molecular compounds, derived from their large molecular weight. There is an intimate relationship between structure and properties of polymers. You need to study both of them to handle the polymer materials. In this recture, we study about basics for polymer designing, sturtucres from 1st order sturucture to high order structure, and mechanical and physical properties of the polymers.
Purpose of class
Studying about basics of polymer structure (molecular structure, solid structure), and properties (mechanical property, physical property).
Goals and objectives
  1. Learning about molecular structure and solution property of polymers (Lectures 1-4)
  2. Learning about solid structure of polymers (Lectures 5 & 6)
  3. Learning about mechanical properties of polymers (Lectures 8-10)
  4. Learning about phyical properties of polymers (Lectures 11 & 12)
  5. Learning about polymer materials (Lectures 13 & 14)
Language
Japanese
Class schedule

 Class schedule HW assignments (Including preparation and review of the class.) Amount of Time Required
1. Introduction of sturtcure and properties of polymers
Molecular structure and solution properties of polymers (1):
Moelcular weight and molecular weight distribution 		Look over Section 3 P109-P110 of the text book. Exercise. 200minutes
2. Molecular structure and solution properties of polymers (2):
Features of isolated polymer chain, Diluted solution of polymer 1 		Look over Section 3 P93-P109 of the text book. Reconfirmation of the exercise in Lecture 1. 200minutes
3. Molecular structure and solution properties of polymers (3):
Diluted solution of polymer 1, Solution of ionic polymer 		Look over Section 3 108-P144 of the text book. Reconfirmation of the exercise in Lecture 2. 200minutes
4. Molecular structure and solution properties of polymers (4):
Chemical structure of polymer 		Look over Section 3 P93-P100 of the text book. Reconfirmation of the exercise in Lecture 3. 200minutes
5. Solid structure of polymer (1)
High order structure of polymer: structure of amorphous polymer, structure of crystalline polymer (i) 		Look over Section 4 P149-P159 of the text book. Reconfirmation of the exercise in Lecture 4. 200minutes
6. Solid structure of polymer (2)
High order structure of polymer: structure of crystalline polymer (i), Liquid crystalline polymer 		Look over Section 4 P159-P167 of the text book. Reconfirmation of the exercise in Lecture 5. 200minutes
7. Midterm examination & explantion Review the contents of Lectures 1-6. Reconfirmation of answers of the midterm examination. 200minutes
8. Mechanical properties of polymer (1):
Viscoelasticity 		Look over Section 4 P171-P176 of the text book. Reconfirmation of the exercise. 200minutes
9. Mechanical properties of polymer (2):
Model of viscoelasticity, Rubber elasticity, Flow of poymer 		Look over Section 4 P176-P187 of the text book. Reconfirmation of the exercise in Lecture 8. 200minutes
10. Physical properties of polymer (1):
Thermal and eletcrical properties of polymer 		Look over Section 4 P181-P187 of the text book. Reconfirmation of the exercise in Lecture 9. 200minutes
11. Physical properties of polymer (2):
Electrical and photo physical properties of polymer 		Look over Section 4 P191-P197 of the text book. Reconfirmation of the exercise in Lecture 11. 200minutes
12. High performance of polymer materials
Functionalized polymer materials 		Look over Section 4 P207-255 of the text book. Reconfirmation of the exercise in Lecture 12. 200minutes
13. Molding of polymer materials Look over Section 4 P197-P204 of the text book. Reconfirmation of the exercise in Lecture 12. 200minutes
14. Term examination & explantion Review the contents of Lectures 8-13. Reconfirmation of answers of the term examination. 200minutes
15.
Total. - - 2800minutes
Relationship between 'Goals and Objectives' and 'Course Outcomes'

 Midterm examination Term examination Total.
1. 30% 30%
2. 20% 20%
3. 20% 20%
4. 20% 20%
5. 10% 10%
Total. 50% 50% -
Evaluation method and criteria
Objectives 1 and 2 are evaluated by the midterm examination. Objectives 3, 4 and 5 are evaluated by the term examination.
Passing grade is more than 60% (exercise level) of tatal socres (midtermexamination (50%) + term examination (50%). You have the exercise of previlus lecture at the bigginig of evely lecture to chekc your attendance. Morethan 2/3 of attendances should be nessary to have the term examination.
Textbooks and reference materials
Shin-Kobunshi Kagaku Jhoron (Kagaku Dojin, Higashimura et al.)
Prerequisites
I recommend you to have studied about analytical chemistry & physical chemistry.
Office hours and How to contact professors for questions
  • 9:00-19:30. make an appointment via e-mail in advance.
Relation to the environment
Non-environment-related course
Regionally-oriented
Non-regionally-oriented course
Development of social and professional independence
  • Course that cultivates an ability for utilizing knowledge
Active-learning course
N/A
Last modified : Wed Oct 17 06:31:29 JST 2018