材料科学与工程(Materials Science and Engineering)

自燃合成的富勒烯(Fullerenes)和富勒烯型态的纳米架构。（图片提供：Vander Sande实验室）
Combustion synthesis of fullerenes and fullerenic nanostructures. Courtesy Vander Sande Lab

材料科学与工程系所的历史可以一路追溯到麻省理工学院在公元1865年成立的最初。这么多年以来，本系的主要功能就是让学生有机会在材料科学和工程的最尖端领域进行独立且有创造性的实验，并藉此让学生从中学习。时至今日，本系已经成为美国同类科系中规模最大的系所，在材料科学教育和研究中的许多领域也都领先群伦。本系和麻省理工学院一同创造出它广为人知的追求完美的传统。

本系所过去所缔造的多项成就其原因是：本系持续在工程科学与技术尖端领域上的进展、成功的将这些进展包容进教学和研究计划中，以及我们和产业界的密切合作。

除了将知识不断的推进之外，我们也招收背景各异的学生和教师。大多数的科学或是工程领域都和材料有某种程度的关联。材料的需要就像是我们生活中对能源的需要一样的重要。根据估计，有三分之一的工程师的工作项目直接和材料有关，而有超过一半的工程师则与材料科学的知识有间接的相关。

若要了解更多资讯，请前往http://dmse.mit.edu/

The Department of Materials Science and Engineering traces its history back to the founding of MIT in 1865. Over these years, its central function has been the education of students by providing them with the opportunity to conduct independent and creative research at the forefront of materials science and engineering. Today the Department is the largest of its kind in the United States, and it is clearly the leader in many areas of materials education and research. The Department shares in creating the tradition of excellence for which MIT is known.

The Department's strong record of achievement is solidly based on its continuing record of pioneering advances in engineering sciences and technologies, its ability to relate new developments and advances to engineering practice, its success in incorporating these advances into teaching and research programs, and its close relationship with industry.

In advancing the frontiers of knowledge, the Department draws upon faculty and students with many diverse backgrounds. There are few fields of science or engineering that are not concerned in some way with materials. Indeed, the need for materials is as pervasive in our lives as is the need for energy. It has been estimated that the work of one in three engineers is directly related to materials, while over half of all engineers have at least an indirect concern for the properties of materials.

For more information, go to http://dmse.mit.edu/

大学部
课号	课程名称
3.00	2002秋季课程：材料热力学 (Thermodynamics of Materials, Fall 2002)
3.012	2003秋季课程：材料科学基础理论 (Fundamentals of Materials Science, Fall 2003)
3.014	2005秋季课程：材料实验 (Materials Laboratory, Fall 2005)NEW!
3.016	2003秋季课程：材料科学家与工程师所需要的数学 (Mathematics for Materials Scientists and Engineers, Fall 2003)
3.021J	2002春季课程：建模与仿真导论 (Introduction to Modeling and Simulation, Spring 2002)
3.034	2005秋季课程：有机与生物材料化学 (Organic & Biomaterials Chemistry, Fall 2005)NEW!
3.044	2005春季课程：材料制程 (Materials Processing, Spring 2005)NEW!
3.051J	2004春季课程：生物医学应用材质(BE.340J) (Materials for Biomedical Applications(BE.340J), Spring 2004)
3.064	2003秋季课程：高分子工程 (Polymer Engineering, Fall 2003)
3.080	2005秋季课程：材料选择之经济与环境议题 (Economic & Environmental Issues in Materials Selection, Fall 2005)NEW!
3.082	2003春季课程：材料制程实验 (Materials Processing Laboratory, Spring 2003)
3.091	2004秋季课程：固态化学导论 (Introduction to Solid State Chemistry, Fall 2004)
3.091	2002秋季课程：固态化学导论 (Introduction to Solid State Chemistry, Fall 2002)
3.094	2004春季课程：人类材料史 (Materials in Human Experience, Spring 2004)
3.14	2003秋季课程：物理冶金 (Physical Metallurgy, Fall 2003)
3.15	2003秋季课程：电子、光学与磁性材料和装置 (Electrical, Optical & Magnetic Materials and Devices, Fall 2003)
3.155J	2003秋季课程：微电子工艺技术 (Microelectronics Processing Technology, Fall 2003)
3.155J	2005秋季课程：微／纳米处理科技 (Micro/Nano Processing Technology, Fall 2005)NEW!
3.185	2003秋季课程：材料工程中的输送现象 (Transport Phenomena in Materials Engineering, Fall 2003)
3.185	2002秋季课程：材料工程中的输送现象 (Transport Phenomena in Materials Engineering, Fall 2002)
3.A24	2004秋季课程：新鲜人研讨会：鸟的工程 (Freshman Seminar: The Engineering of Birds, Fall 2004)
3.A24	2003春季课程：新鲜人研讨会：树的工程 (Freshman Seminar: The Engineering of Trees, Spring 2003)
3.A26	2005秋季课程：大一研讨会：工程的本质 (Freshman Seminar: The Nature of Engineering, Fall 2005)NEW!

研究所
课号	课程名称
3.11	1999秋季课程：材料力学 (Mechanics of Materials, Fall 1999)
3.20	2003秋季课程：均势材料 (Materials at Equilibrium, Fall 2003)
3.205	2003秋季课程：材料的热力学和力学 (Thermodynamics and Kinetics of Materials, Fall 2003)
3.22	2003春季课程：材料的机械性质 (Mechanical Properties of Materials, Spring 2003)
3.22	2004春季课程：材料的机械性质 (Mechanical Properties of Materials, Spring 2004)
3.225	2002夏季课程：材料的机械和电子性质 (Electronic and Mechanical Properties of Materials, Summer 2002)
3.320	2003春季课程：材料的原子计算机模型 (Atomistic Computer Modeling of Materials, Spring 2003)
3.320	2005春季课程：材料的原子计算机模型(SMA 5107) (Atomistic Computer Modeling of Materials (SMA 5107), Spring 2005)NEW!
3.35	2003秋季课程：材质破断与疲劳 (Fracture and Fatigue, Fall 2003)
3.37	2002秋季课程：焊接与连接制程 (Welding and Joining Processes, Fall 2002)
3.40J	2004春季课程：物理冶金 (Physical Metallurgy, Spring 2004)
3.40J	2003春季课程：物理冶金 (Physical Metallurgy, Spring 2003)
3.43J	2002秋季课程：集成微电子电路元件 (Integrated Microelectronic Devices, Fall 2002)
3.45	2004春季课程：磁性材料 (Magnetic Materials, Spring 2004)
3.46	2004春季课程：感光材质与装置 (Photonic Materials and Devices, Spring 2004)
3.53	2001春季课程：材料的电化处理 (Electrochemical Processing of Materials, Spring 2001)
3.564J	2003春季课程：可持续能源 (Sustainable Energy, Spring 2003)
3.564J	2005春季课程：可持续能源 (Sustainable Energy, Spring 2005)NEW!
3.60	2005秋季课程：物质的对称、结构与张力特质 (Symmetry, Structure, and Tensor Properties of Materials, Fall 2005)NEW!
3.80J	2002秋季课程：制造研讨会 (Proseminar in Manufacturing, Fall 2002)
3.80J	2005秋季课程：制造研讨会 (Proseminar in Manufacturing, Fall 2005)NEW!
3.83J	2003夏季课程：制造领域的系统最优化与分析 (System Optimization and Analysis for Manufacturing, Summer 2003)
3.961J	2003春季课程：医疗器材和植体设计 (Design of Medical Devices and Implants, Spring 2003)
3.962J	2003春季课程：生医材料的分子原理 (Molecular Principles of Biomaterials, Spring 2003)
3.96J	2003秋季课程：生物材质与组织间的反应 (Biomaterials-Tissue Interactions, Fall 2003)
3.91J	2003春季课程：塑性的力学性能 (Mechanical Behavior of Plastics, Spring 2003)
3.97J	2004春季课程：细胞基质力学 (Cell-Matrix Mechanics, Spring 2004)

大学部/研究所
课号	课程名称
3.172	2003秋季课程：发明与专利权 (Inventions and Patents, Fall 2003)