材料科学与工程专业培养方案

专业名称与代码:材料科学与工程 080401

专业培养目标:本专业旨在培养符合国家建设、发展需要的材料科学与工程领域高素质的人才。毕业生应具有良好的人文社会科学素养,坚实的自然科学、相关工程技术的基础知识;具备扎实的材料科学与工程学科基础理论、基础知识和基本技能;具有创新意识和创新能力,能将所学知识应用于实践、服务于社会。毕业生能从事材料科学与工程及相关领域科研、工程技术、教学以及管理方面的工作。

专业毕业要求

1.具有良好的人文社会科学素养、社会责任感和职业道德。

2.具有应用材料科学与工程领域所需的数学、物理、化学、机械设计与制图、电子电工和计算机以及管理知识的能力。

3.掌握材料科学与工程学科基础理论、基础知识,掌握常规的材料制备方法、材料性能及结构检测技术,掌握材料组成、结构、制备、性能、使用效能之间关系的基本规律,具有材料科学与工程领域工程实践的学习经历,了解材料科学与工程领域的前沿发展现状和趋势。

4.具有综合应用所学理论、知识、技术手段设计的能力,以及进行材料研究、材料设计、材料开发、材料性能改善与提高的能力。

5.具有创新思维能力和一定的创新实践能力,具有发现、分析和解决材料工程问题的能力,具备一定的创业知识和意识。

6.具有专业成果总结、学术交流的能力,具有文献查阅和相关信息获取的能力以及文献、信息有效应用的能力。

7.了解材料科学与工程领域相关的职业和行业的生产、设计、研究与开发、环境保护和可持续发展等方面的方针、政策和法律、法规,能正确认识材料科学与工程对于客观世界和社会的影响。

8.具有国际视野和跨文化的交流、竞争、合作能力。

9.对终身学习有正确认识,具有不断学习和适应发展的能力。

毕业要求及实现途径

主干学科:材料科学与工程。

专业核心课程:材料学导论、晶体学、材料物理、材料科学基础、材料工程基础、材料工艺与设备、材料合成与制备、材料性能与检测、现代测试技术、功能材料、矿物材料、复合材料及工艺。

主要实践性教学环节:物理实验、化学实验基础技能训练、无机化学实验、物理化学实验、高分子化学及物理实验、C语言课程设计、材料科学与工程基础实验、材料工艺实验、材料工厂设计、材料合成与制备实验、材料性能检测实验、现代测试技术实验、矿物材料工艺实验、复合材料成型与加工实验、材料创新设计实验、生产实习、毕业论文(设计)。

修业年限:四年。

授予学位:工学学士。

相近专业:功能材料、材料物理。

Program for Materials Science and Engineering

Specialty and Code:Materials Science and Engineering 080401

Education 0bjective:This specialty aims to educate the talents who meet the demands of the national construction and development in materials science and engineering.The undergraduates are asked to possess good humanities and social science literacy,and solid natural science,and the basic knowledge of relative engineering and technology.The students will master the basic theory,knowledge and skill of materials science and engineering.The students will possess the abilities of innovation,practice and service to the society and so on.The undergraduates will able to do the work about research,engineering and technology,teaching and management in the field of materials science and engineering.

Graduation Requirements

1.To possess good humanities and social science literacy,sense of social responsibility and professional ethics.

2.To possess the abilities of applying mathematic,physics,chemistry,mechanical design,electronics and electrical,computer and management to materials science and engineering.

3.To master the basic theory and knowledge of materials science and engineering.To master the conventional methods of manufacturing materials,the testing technique of materials properties and structure.To master the basic laws of the relationship between materials component,structure,manufacture,properties and performance.To experience the engineering practice of materials science and engineering.To know the forefront and development trend of materials science and engineering.

4.To possess the comprehensive abilities of design in applying theory,knowledge and technology.To possess the abilities in research,design,exploitation and improving materials properties.

5.To possess the spirit and practical abilities of innovation.To have the ability to discover,analyze and figure out the problems in materials engineering.To have some knowledge and awareness of doing pioneering work.

6.To have the ability to summarize and academic exchange,literature search,obtain information and apply them.

7.To know the career relative to materials science and engineering,the policy,laws and regulations about producing,designing,researching and exploiting,environment protection and sustainable development.To know the effect of materials science and engineering on objective world and society.

8.To have international perspective and ability of cross-cultural communication,competition and cooperation.

9.Ability to keep study all their lifelong and adapt to the development.

Graduation Requirements and Ways to Achieve

Major Disciplines:Materials Science and Engineering.

Main Courses:Introduction to Materials Science,Crystallography,Materials Physics,Fundamentals of Materials Science,Fundamentals of Materials Engineering,Materials Technology and Equipments,Synthesis and Preparation of Materials,Materials Properties and Testing,Modern Testing Technology,Functional Materials,Mineral Materials,Composite Materials and Processing Technology.

Practical Work:Physical Experiments,Basic Training of Chemical Experiments,Inorganic Chemistry Experiments,Physical Chemistry Experiments,Experiments for Polymer Chemistry and Physics, Course Design for C Language Programming,Basic Experiments for Materials Science and Engineering,Experiments for Materials Technology,Material Factory Design,Experiments for Synthesis and Preparation of Materials,Testing Experiments of Materials Properties,Experiments for Modern Testing Technology,Experiments for Mineral Materials Processing,Experiments of Composite Materials Molding and Processing,Experiments of Innovative Design of Materials,Factory Practice,Bachelor Thesis(Design).

Duration:four years.

Degree Granted:Bachelor of Engineering.

Related Specialties:Functional Materials,Materials Physics.

材料科学与工程专业课程教学计划表

Course Descriptions of Materials Science and Engineering

注:1.通识教育选修课(12学分)和创新创业自主学习(5学分)未列入具体学期。
2.专业选修课,至少修满8学分。
3.创新创业学分认定:①中国地质大学(武汉)材料科学与工程系“本科生创新创业自主学习学分认定一览表”(2015年6月)中认定的学分;②学生在完成“创新创业自主学习”的基本学分(2学分+3学分)后,超额的、与材料学科相关的创新创业学分可记为专业选修课学分。
4.如下学分可记为“专业选修课”学分:高于本教学计划标准选择数理化必修课程获得的额外学分;跨大类、跨专业选择其他专业的专业必修课获得的学分;学校认定的境内外交流学习本专业课程所转换的学分;与材料学科相关的创新创业学分;学校认定的本学科在线课程(如MOOC、Khan Academy)所转换的学分。

材料科学与工程专业课程分类统计

Course Category Statistics of Materials Science and Engineering