本課程探討材料的機械、光學與熱力學特性,材料於熱加工過程通常伴隨著相的轉移與變化,透過相圖了解金屬合金材料設計或熱加工的最適化條件。
瞭解陶瓷材料的基本分類與應用、種類、結晶結構與特性,以及離子的分佈和缺陷,並概述其強度、順服性,及荷重斷裂強度等基本性質。從高分子材料的基本化學組成開始,探討材料特性結構如密度、強度、硬度等,並分析結晶與半結晶高分子的結構差異與物理性質影響。纖維、粒子型、金屬型補強添加物於複合材料組成、順相度、結晶性與微細結構,對複合材料的機械性影響,了解高分子、陶瓷材料與基材模板之作用。透過氧化還原反應了解材料的腐蝕效應,內容包括標準半電池與氫電極、電化學電位、金屬氧化速率等相關實際案例分析,使學生了解材料的腐蝕與降解特性,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。透過文獻導引回顧材料科學的發展歷史與沿革,逐漸導入目前常用的材料製造與加工方式、材料的實際應用狀況與未來。
由課程中安排文章導讀與學生報告,瞭解材料相關工程技術發展及應用現況。This course explores the mechanical, optical and thermodynamic characteristics of materials. The material is usually accompanied by the transition and change of the phase, and understands the most suitable conditions for the design or thermal processing of metal alloy materials through the phase diagram.
Understand the basic classification and application of ceramic materials, types, crystalline structures and characteristics, as well as the distribution and defects of ions, and summarize its basic properties such as strength, obedience, and heavy fracture strength. Start with the basic chemical composition of polymer materials, explore the characteristics of material characteristics such as density, strength, hardness, etc., and analyze the structural differences and physical properties of crystal and semi -crystal polymer. Fiber, particle, and metal -type reinforcement additives are composed of composite materials, smoothness, crystallization, and micro -structures. The mechanical effects of composite materials understand the role of high molecules, ceramic materials and substrate templates. Understand the corrosion effect of the material through the oxidation reaction, the content includes relevant actual case analysis of the standard semi -battery and hydrogen electrode, electrochemical potential, metal oxidation rate, etc., so that students can understand the corrosion and degradation characteristics of the materials, and arrange articles in the curriculum and arranges articles and interpretation of articles. Student reports to understand the development and application of engineering technology. Through the guidance of literature, the development history and revolution of materials science have been retrospectively introduced, and the current commonly used materials manufacturing and processing methods, the actual application status and future of materials are introduced.
A guide and student report are arranged in the course to understand the development and application of materials related engineering technology.
Materials Science and Engineering: an Introduction. Ailliam D. Callister John Wiley & Sons, Inc.
Materials Science and Engineering: Press intropuction. AI loli amd. Cal list and John Wiley & Sons, Inc.
| 評分項目 Grading Method | 配分比例 Grading percentage | 說明 Description |
|---|---|---|
| 隨堂作業隨堂作業 Suitogen |
10 | 課程中將安排4~5次隨堂作業,針對學習內容進行評估 |
| 測驗一測驗一 Test one |
15 | 針對本課程[Ch. 10, 11 ]進行學生學習狀況評量 |
| 測驗二(期中考)測驗二(期中考) Test 2 (Period Middle Entrance Examination) |
15 | 針對本課程[Ch. 12, 13 ]進行學生學習狀況評量(初版報告提交) |
| 測驗三測驗三 Test three |
15 | 針對本課程[Ch. 14~16 ]進行學生學習狀況評量 |
| 測驗四(期末考)測驗四(期末考) Test 4 (final exam) |
15 | 針對本課程[Ch. 17, 18 ]進行學生學習狀況評量(完整版報告提交) |
| 期末報告期末報告 Final report |
20 | 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5%、口頭報告5% |
| 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 |
