Holiday
CHE化工220 R2R3R4
本課程主要講解高分子的基本物理特性,內容包括:(1)高分子鏈構形統計力學、(2)高分子溶液熱力學、(3)高分子玻璃轉化 現象、(4)高分子結晶形態學、(5)高分子結晶熱力學與動力學、(6)高分子黏彈性 This course aims to assist students with little or no prior background in polymer science in developing a fundamental understanding of polymer physics. It will cover the essential principles that can be exploited to elucidate the structure-property relationships of polymers. We will also briefly discuss the recent developments in pertinent topics to ignite students' curiosity and motivate them to participate in the research within or related to the domain of polymer physics. This course will cover the essential concepts for understanding the physical properties of polymers. Specific topics to be covered include (1) conformational statistics of single chain, (2) polymer solution thermodynamics, (3) glass transition, (4) polymer crystallization, and (5) viscoelasticity.
Course keywords: 高分子鏈構形、高分子溶液熱力學、高分子玻璃轉化現象、高分子結晶學、高分子黏彈性 polymer chain conformation, polymer solution thermodynamics, glass transition, crystallization, viscoelasticity 一、課程說明(Course Description) The connectivity and collective behavior of monomers give rise to intriguing properties that set polymers apart from small molecules. Polymer physics is a specialized field within polymer science that concentrates on the study of the structure, dynamics, and physical properties of polymers. The structures observed in polymers within the experimental time scale are typically metastable and exhibit distinctive features across a wide spectrum of length scales. Therefore, comprehending the fundamental thermodynamic and kinetic principles governing the structure formation is crucial for controlling and designing the hierarchical structures and properties of polymers aiming for practical applications as well as developing novel functional materials. This course is designed to impart the fundamental concepts of polymer physics to students. We will commence with an exploration of single-chain behavior and gradually delve into the topics including polymer solution thermodynamics, glass transition, self-assembly behavior, viscoelasticity, and dynamics. Additionally, we will briefly touch upon the application of small-angle scattering techniques in the analysis of polymer nanostructures. The goal of this course is to provide students from diverse backgrounds with a foundational understanding of polymer physics that can serve as a stepping stone to grasp the intricacies of the processing-structure-property relationship and the mechanisms dictating the morphological formation of polymers. 本課程主要講解高分子的基本物理特性,內容包括:(1)高分子鏈構形統計力學、(2)高分子溶液熱 力學、(3)高分子玻璃轉化現象、(4)高分子結晶形態學、(5)高分子結晶熱力學與動力學、(6)高分 子黏彈性。 This course will cover the essential concepts for understanding the physical properties of polymers. Specific topics to be covered include (1) conformational statistics of single chain, (2) polymer solution thermodynamics, (3) glass transition, (4) polymer crystallization, and (5) viscoelasticity. 二、指定用書(Text Books) 1.高分子物理講義 (Lecture notes) 2.M. Rubintein Grand R. H. Colby, Polymer Physics, Oxford. 三、參考書籍(References) 1. G Strobl, The Physics of Polymer 2. Sperling, Introduction to Physical Polymer Science 四、教學方式(Teaching Method) Lecture 3/4; Discussion secession 1/4 五、教學進度(Syllabus) (1)高分子鏈構形統計力學 conformational statistics of single chain (2)高分子溶液熱力學 polymer solution thermodynamics (3)高分子玻璃轉化現象 glass transition (1)高分子結晶形態學 morphology of crystallie polymers (2)高分子結晶熱力學與動力學 crystallization thermodynamics and kinetics of polymers (3)高分子黏彈性 viscoelasticity 六、成績考核(Evaluation) Mid term exam: 50% Final exam: 50% 七、可連結之網頁位址
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Average Percentage 84.88
Std. Deviation 5.29
平均百分制 85.83
標準差 4.56
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