本課程探討高分子材料的機械、光學與熱力學特性,透過從材料分子、構形與結晶介紹,從而導入高分子材料於溶液中、融溶狀態、混參與塊狀聚合過程中的分子鏈運動等。高分子的玻璃態、結晶態與橡膠態特性分析,以及高分子溶液、結晶與液晶結構、及微觀相分離的熱力學變化探討。透過高分子結構與功能性相關實際案例分析,使學生了解高分子材料基本物理特性,並由課程中安排文章導讀與學生報告,瞭解工程技術發展及應用現況。This course explores the mechanical, optical and thermal characteristics of polymer materials. Through the introduction of material molecules, structures and crystals, it is introduced into the molecular linkage movement of polymer materials in solution, melt-soluble state, mixed participation and block-state polymerization process, etc. . Analysis of glass, crystallization and rubber properties of polymers, as well as heat-based changes in polymer solutions, crystallization and liquid crystal structures, and micro-phase separation. Through actual case analysis related to polymer structure and functionality, students can understand the basic physical characteristics of polymer materials, and arrange articles to guide and student reports in the course to understand the development and application status of engineering technology.
認識並熟悉高分子各種物理行為表現和其原理。
Know and be familiar with the various physical behaviors and principles of polymers.
1. An Introduction to Polymer Physics by David I. Bower: Cambridge University Press
2. Introduction to Polymers by R.J. Young, and P.A. Lovell: CRC Press
1. an Introduction to polymer physics by David i. bower: Cambridge university press
| 評分項目 Grading Method | 配分比例 Grading percentage | 說明 Description |
|---|---|---|
| 隨堂作業隨堂作業 Works in the Hall |
30 | 課程中將安排4~5次隨堂作業,針對學習內容進行評估 |
| 專題報告專題報告 Special Report |
30 | 針對本課程學生整體學習狀況進行總評量 |
| 期末報告期末報告 Final report |
30 | 課程將由學生選定與本課程相關之主題進行報告,其中報告架構5%與內容完整性5%、文獻引用與報告撰寫10%、口頭報告10% |
| 出席率出席率 Attendance rate |
10 | 依據學生課程出席率與上課狀況進行評估 |
