Course title | |||||
高分子・繊維物理Ⅱ [Physics of Polymers and Textiles Ⅱ] | |||||
Course category | technology speciality courses,ets. | Requirement | Credit | 2 | |
Department | Year | 3~4 | Semester | Fall | |
Course type | Fall | Course code | 023313 | ||
Instructor(s) | |||||
富永 洋一 [TOMINAGA Yoichi] | |||||
Facility affiliation | Graduate School of Bio-Applications and Systems Engineering | Office | Email address |
Course description |
In this class, you learn basics of polymer physics from both sides of physical and chemical points of views. The contents include mechanical, thermal and electrical properties of polymers which are particularly important for the polymer physics. Goal of this class is to learn skills of fundamentals from the viewpoint of microscopic properties and applications from the viewpoint of macroscopic properties of polymers. This class also focuses on widely professional knowledge obtained from introduction of recent advanced research and actual experimental and samples. |
Expected Learning |
You can understand mechanical (stress and strain, viscoelastic), thermal (glass transition, relaxation phenomena) and electrical (dielectric, piezoelectric, conducting, ion-conductive) properties of polymeric materials. |
Course schedule |
(1) Class guidance and mini test (check for related lectures) (2) Mechanical properties of polymer 1: strain and stress of the polymers, p.190-193 2: elasticity and viscosity of polymers, viscoelastic properties, p.193-196 3: natural rubber, elasticity of rubber, p.198-199 4: dynamic viscoelastic properties, p. 196-198, non-linear phenomenon of viscoelastic materials, p. 201-204 5: molecular interpretation, p. 204-210, analysis of viscoelastic amounts, p. 214-215 (3) Thermal properties of polymer 1: measurement of thermal properties of polymers, p.227-230 2: transitions of polymer (melting and crystallization), p.230-232 3: transitions of polymer (glass transition and enthalpy relaxation), p.233-235 (4) Electrical properties of polymer 1: dielectric properties of polymer, p.238-242 2: piezoelectric properties of polymer, p.242-246 3: electron-conducting polymers, p.247-255 4: ion-conductive polymers, p.255-261 5: applications of ion-conductive polymer (Li-ion secondary batteries, fuel cells) (5) A final examination |
Prerequisites |
Polymer Chemistry I and II, Physics of Polymers and Texiles I |
Required Text(s) and Materials |
Fundamentals of Polymer Sciences (SPSJ) |
References |
Refer to the books on polymers in the library |
Assessment/Grading |
Approximately 20% on report papers, 30% on attendances and 50% on the final examination |
Message from instructor(s) |
Please think about practical polymeric materials such as tires, plastic bottles and fibers for shirts which are widely used around you. Through this class, please make sure to know the fun of polymeric materials. I will introduce you recent hot topics and show simple examinations and samples. |
Course keywords |
Stress and strain, Viscoelastic, Glass transition, Relaxation, Dielectric, piezoelectric and conductive, ion-conductive |
Office hours |
Anytime in the first floor of Room 121 of Building No. 4 |
Remarks 1 |
Remarks 2 |
Related URL |
Lecture Language |
Language Subject |
Last update |
3/7/2017 8:24:53 PM |