一.陈传忠: Adept at reading English literatures and books in material science and engineering including metallic materials, ceramic materials, polymer materials, composite materials and their shaping and control engineering (including liquid metals and costing technology, plastic forming and molding technology, and joint technology) etc. The reading speed is supposed to reach 80-100 words per minute and a large number of vocabularies are required as well. Proficient at translating the literatures by the help of dictionary with the speed of 350 English words into Chinese and 250 Chinese words into English per hour, and the translation should be correct and express the original meaning correctly. Practice students to write English thesis in an accurate way.
二.刘久荣: This lesson has been developed to cater the needs of students from different engineering disciplines and backgrounds other than materials science and engineering (e.g. mechanical. Industrial, manufacturing, chemical, civil, biomedical, and electrical engineering). At the same time, a conscious effort has been made so that the contents are very well suited for graduates majoring in materials science and engineering and closely rated disciplines. The subjects presented in the text are a careful selection of topics based on our analysis of the needs and feedback from reviewers. The concise approach used in the textbook will allow instructors to complete an introductory materials science and engineering course in one semester. Attending this lesson, students will find materials science and engineering very interesting, and they will clearly see the relevance of what they are learning. It will present many examples of modern applications of materials science and engineering that impact student’s lives. Our feeling is that if students recognize that many of today’s technological marvels depend on the availability of engineering materials they will be more motivated and remain interested in learning about how to apply the essential of materials science and engineering. Most of the materials presented here can be covered in typical one-semester course. By selecting the appropriate topics, however, the instructor can emphasize the desired materials (i.e. metals, ceramics, polymers, composites, etc.), provide an over-view of materials, concentrate on behavior, or focus on physical properties. This text is also intended for engineering students who have completed courses in general physics, chemistry, physics and calculus.
三.张 琳: The structure, properties, processing and application of metals, polymers, ceramics and composites will be mainly introduced in this course. It takes about 32 teaching hours to teach about 14 chapters as belows: Chapter 1, MSE : Introduction to Materials Science & Engineering, The course objective is to introduce fundamental concepts in Material Science and we will learn about materials structure ,how structure dictates properties and how processing can change structure. Chapter 2, Atomic Structure and Bonding in Solid, we will address bonding type and properties inferred from bonding. Chapter 3, The Structures of Metals, Issues to address is how do atoms assemble into solid structures, how does the density of a material depend on its structures and when do material properties vary with the sample orientation. Chapter 4, Defects in Solids, We will learn the types of defects arise in solids and how do defects affect material properties. Chapter 5, Diffusion in Solids, We will mainly study how does diffusion occur and how does diffusion depend on structure and temperature. Chapter 6, Mechanical Properties, We will address the stress, strain Elastic behavior, plastic behavior , Toughness and ductility. Chapter 7, Dislocations and Strengthening Mechanisms in Metal, we will learn the relationship of strength and dislocation and the method to increase strength. Chapter 8, Failure of Metals, we will learn the fracture mechanisms and how is fracture resistance quantified. Chapter 9, Metal Alloy-Applications and Processing, We will address the common fabrication techniques and how properties be modified by heat treatment. Chapter 10, Ceramics Materials Structure and Properties, We will learn about the structure, point defects, impurities and mechanical properties of ceramics materials. Chapter 11, Ceramics Materials Applications and Processing, Mainly introduce some applications and processing of ceramics. Chapter 12, Structures of Polymers, Mainly introduce the basic microstructural features and how the polymer properties affected by molecular weight. Chapter 13, Polymers-Characteristics, Application and Processing Chapter 14, Composite Materials, Mainly introduce the classes and types, properties and typical applications of composite materials. |
