MS 1022-2

Brief

延續上學期材料科學與工程之基礎，下學期則為各種材料與性質介紹(英語授課)，先介紹金屬、塑膠、陶瓷、複材四種材 料，再介紹腐蝕性質，以及電、光、磁性質與相關材料，最後介紹生物材料與生醫材料。目標為期望學生能對各種材料特性 及其發展有所認識。本課程將使用Granta Design CES Edupack軟體讓學生進行課後自主學習。 Materials Science and Engineering II” is every week at W3W4F3F4 sessions. The course content consists of introductions of materials according to (1) fundamental classifications (engineering alloys/polymers/ceramics/composites) and (2) functional properties (corrosion/electrical/optical/magnetic/biocompatibility). The aim is to allow students to have the basic understanding of various types of materials and their functions. This course will use Granta Design CES Edupack to let students learn how to perform "active learning".

Description

Course keywords: 材料科學，材料工程，材料製程，材料設計，材料選用，Materials Science，Materials Engineering，Materials Process，Materials Design，Materials Selection 一、課程說明(Course Description) 延續上學期材料科學與工程之基礎，下學期則為各種材料與性質介紹(英語授課)，先介紹金屬、塑 膠、陶瓷、複材四種材料，再介紹腐蝕性質，以及電、光、磁性質與相關材料，最後介紹生物材料 與生醫材料，目標為期望學生能對各種材料特性及其發展有所認識。本課程使用Ansys Granta Edupack軟體讓學生學習材料之競爭，同時進行課後自主學習。 Materials Science and Engineering II” is every week at W3W4F3F4 sessions. The course content consists of introductions of materials according to (1) fundamental classifications (engineering alloys/polymers/ceramics/composites) and (2) functional properties (corrosion/electrical/optical/magnetic/biocompatibility). The aim is to allow students to have the basic understanding of various types of materials and their functions. This course will use Granta Design CES Edupack to let students learn the competitions between materials, furthermore "active learning" is encouraged. 二、指定用書(Text Books) William F. Smith and Javad Hashemi, "Foundations of Materials Science and Engineering," Sixth SI Edition, The McGraw-Hill Companies, ISBN:978-1-260- 09203-5 三、參考書籍(References) 1.劉國雄、林樹均、李勝隆、鄭晃忠、葉均蔚，「工程材料科學」，全華科技圖書，2006，ISBN: 957-21-5434-6 四、教學方式(Teaching Method) 投影片教學配合手寫白板 Lectures in English with PowerPoint Presentations and Handwriting 五、教學進度(Syllabus) Chapter 9 Engineering Alloys Introduction, Production of Iron and Steel, Iron Carbide Phase Diagram, Heat treatment of plain carbon steels, Low Alloy Steels, Aluminum Alloys, Copper Alloys, Stainless Steel, Cast Iron, Magnesium Alloys, Titanium Alloys, Nickel Alloys, Intermetallics, Shape Memory Alloys, Amorphous metals. Chapter 10 Polymeric Materials Introduction, Polymerization reactions, Industrial Polymerization Methods, Crystalline and Stereoisomerism in Thermoplastics, Processing of Plastic Materials, General Purpose Thermoplastics, Engineering Thermoplastics, Thermosetting Plastics, Elastomers (Rubbers), Deformation and Strengthening of of Thermoplastics, Creep and Fracture of Polymers. Chapter 11 Ceramics Introduction, Simple Ceramic Crystal Structures, Silicate Structures, Processing of Ceramics, Traditional and Engineering Ceramics, Mechanical Properties of Ceramics, Thermal Properties of Ceramics, Glasses, Ceramic Coating and Surface Engineering, Nanotechnology and Ceramics. Chapter 12 Composite Materials Introduction, Fibers for Reinforced-Plastic Composite Materials, Fiber- Reinforced-Plastic Composite Materials, Open Mold Processes for FRP, Closed Mold Processes for FRP, Concrete, Asphalt and Asphalt Mixes, Wood, Sandwich Structures, metal Matrix Composites (MMCs), Ceramic-Matrix Composites (CMCs). Chapter 13 Corrosion Introduction, Electrochemical Corrosion of metals, Galvanic Cells, Corrosion Rates, Types of Corrosion, Oxidation of metals, Corrosion Control. Chapter 14 Electrical Properties of Materials Electric Conduction in metals, Energy-Band Model for Electrical Conduction, Intrinsic Semiconductors, Extrinsic Semiconductors, Semiconductor Devices, Microelectronics, Compound Semiconductors, Electrical Properties of Ceramics, Nanoelectronics. Chapter 15 Optical Properties and Superconductive Materials Light and Electromagnetic Spectrum, Refraction of Light, Absorption, Transmission and Reflection of Light, Luminescence, Stimulated Emission of radiation and Lasers, Optical Fibers, Superconducting Materials. Chapter 16 Magnetic Properties Introduction, Magnetic Fields and Quantities, Types of Magnetism, Effect of Temperature on Ferromagnetism, Ferromagnetic Domains, Types of Energies that Determine the Structure of Ferromagnetic Domain, Magnetization and Demagnetization, Soft Magnetic Materials, Hard Magnetic Materials, Ferrites. Chapter 17 Biological Materials and Biomaterials Introduction, Biological Material: Bone, Biological Material: Tendons and Ligaments, Biological Material: Articular Cartilage, Biomaterials: Biometals, Biomaterials: Biopolymers, Ceramics in Biomedical Applications, Composites in Biomedical Applications, Corrosion in Biomaterials, Wear in Biomedical Implants, Tissue Engineering. 六、成績考核(Evaluation) 期中考 40 %、期未考 50%。 點名問答和演習課表現: 10 % 七、可連結之網頁位址：無

Timetable

Scores

Average GPA 3.21

Std. Deviation 1.14

Remarks

課程上150分鐘,其餘時間由教授彈性運用

Restrictions

限材料系大學部

Compulsory

Elective

Cross Discipline

First Specialization

Second Specialization