材料物理专业本科培养方案.doc

材料物理专业】2014版本科培养方案Undergraduate Education Plan for Specialty in Materials Physics (2014)专业名称材料物理主干学科材料学，物理MajorMaterials PhysicsMajor DisciplinesMaterials , Physics计划学制四年授予学位工学学士Duration4 YearsDegree GrantedBachelor of Engineering所属大类材料类大类培养年限1年DisciplinaryMaterialsDuration1 years最低毕业学分规定Graduation Credit Criteria课程类Course Classification课程性质Course Nature通识课程Public Basic Courses学科大类课程Basic Disciplinary Courses专业课程Specialized Courses个性课程Personalized Course集中性实践Practice Courses课外学分Study Credit after Class总学分TotalCredits必修课Required Courses3549.549\21.5\190选修课Elective Courses9286\10*本专业学生的课内、课外实践教学学分共计36.5学分。

一、 培养目标与毕业要求Ⅰ Educational Objectives &Requirement（一） 培养目标（1） 身心健康，具备良好的敬业精神、社会责任感和工程职业道德，关注当代全球和社会问题，具有质量意识、环境意识和安全意识，适应21世纪社会主义现代化建设需要的德、智、体、美全面发展，具有奉献精神、创新意识和实践能力的创新性人才；Aiming for educating students with physical and mental health, have a good sense of professionalism, social responsibility and engineering ethics. Focus on contemporary global and social issues, with a sense of quality, safety awareness and environmental awareness. Students should meet the needs of socialist modernization in 21st century overall development of moral, intellectual, physical and aesthetic, with a sense of dedication, innovation and practice ability of creative talents. （2） 掌握材料物理基本理论、专业知识和基本技能，从分子、原子、电子层次上研究材料的结构、物理机制和物理性能，致力于材料设计、研发、应用，具有良好的综合技能和创新能力，能够在力、热、声、光、电、磁、生物医学等新材料领域，从事科学研究、教学、技术开发及生产等工作的高素质创新型高级专门人才；Master the basic theory of material physics, basic knowledge and skills, learn the physics mechanisms and physical properties of materials at the molecular, atomic and electronic level. Dedicated to materials design, development and applications. （3） 具有良好的数学、物理基础和实验技能，得到材料制备技术、结构和性能研究的基本方法的良好训练。

能应用现代物理研究分析手段，研究各种功能材料特别是电子信息材料、光电传感材料中的物理问题及其规律，并运用这些规律设计和研制新材料、改进材料性能、发展材料科学的基础理论；Good skills of mathematics, physics and experimental. Well trained on preparation technology of materials, structures and properties of the basic methods. Capability of utilizing the modern analysis of the physical means to guide the development of new materials, property improvement and fundamental theory.（4） 知识、能力、素质协调发展，具有较强的分析问题解决问题的能力，具有独立从事材料研究、应用及新材料开发的能力，具有跨文化交流、合作和竞争的能力，并具有向其它交叉学科（材料、物理、化学、生物等）发展及继续学习的能力；Coordinated development of knowledge, ability and quality, with strong ability to analyze problems to solve the problem. Ability to engage in research, application and development of new materials independently, with cross - cultural communication, collaboration and competition（5） 具有良好的口头、书面表达和交流沟通能力、良好的团队意识和合作精神，具有终身学习的能力。

Good oral and written expression and communication skills, good team/ cooperation spirit. Ability to lifelong learning.（二） 毕业要求（1） 具有良好的思想素质、身体素质、心理素质、文化修养、社会道德和责任担当等人文素养With good qualities of physics, psychology and ideology, culture, social ethics and responsibility as humanity.（2） 具有创新意识，掌握基本的创新方法了解当代全球问题和社会问题，在工程设计中综合考虑经济、环境、法律、安全和伦理等制约因素Ability of creation and innovation. Understanding contemporary global and social issues. Ability of considering the economic, environmental, legal, security and ethical constraint factors during the design of manufacture.（3） 掌握从事本专业领域所需的材料、相关自然科学和管理知识。

具有一定的组织管理能力、表达能力和人际交往能力以及在团队中发挥作用的能力；具有一定的国际视野和跨文化的交流、竞争与合作能力；Master fundamental knowledge of basic science and management related to this discipline. Skills of management, communication and interpersonal skills. Ability of team work, international and intercultural communication, competition and cooperation;（4） 熟悉国家的科教兴国战略、熟悉国家关于材料科学与工程研究、科技开发及相关产业的政策，熟悉国内外知识产权等方面的法律法规；了解科技发展、知识产权等方面的方针、政策和法规；Familiar with China strategy of rejuvenating, policy on research, technological development and related industrial materials science and engineering. Familiar with domestic and foreign intellectual property laws and regulations. Understanding the development of science and technology, intellectual property rights principles, and policies and regulations. （5） 了解材料物理发展的理论前沿和光、电、热、声、磁功能材料、半导体材料、生物医用材料、新能源材料等新兴学科交叉领域的应用前景和行业需求，尤其要掌握光、电功能材料领域研究前沿、发展动态和下一步发展趋势；Understand the prospects and industry needs of materials physics. Learn the demands of optical, electrical, thermal, acoustic, magnetic functional materials, semiconductor materials, biomedical materials, new energy materials and other emerging interdisciplinary field. Master the developments and trends of light and electricity function materials;（6） 掌握材料的物质结构、能级结构、结构与性能的基本原理，掌握材料设计、性能优选的原则，掌握材料的组成、结构和性能关系，具有应用计算机进行材料的物理性能计算、计算机控制材料的性能测试等方面的能力；Master the basic principles of material structure, energy level structure, structure and properties. Master the principle of materials design, performance optimization, the relationship between composition, structure and properties of materials. Master the technical methods of performance test and analysis of materials. Skills of computer calculation of physical properti。