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武汉科技大学培养方案 profession, production, design, research of industry, and its effect on social, health and safety, law and culture; Understand responsibilities of engineers and the effect of engineering on the objective world and social.
6、工程师社会责任意识：能够基于材料和化学领域背景知识进行合理分析，评价专业相关的职业和 行业的生产、设计、研究方案对社会、健康、安全、法律以及文化的影响，并理解应承担的责任，能正 确认识工程对于客观世界和社会的影响。
7、环境与可持续发展意识、环境保护 和可持续发展等方面的方针、政策和法津、法规，能够理解和评价其对环境、社会可持续发展的影响。
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武汉科技大学培养方案
及实验方案设计；具有综合运用理论和技术手段设计材料的合成与制备、生产及工艺过程的能力；并能 对所得结果进行综合反馈以得到合理有效的结论。
5、现代工具的应用：能够针对具体的材料化学领域专业问题，掌握中外文资料的查询、文献检索以 及运用现代信息技术获取相关信息的基本技能，利用本专业常用的设计、仿真分析等工程软件，并应用 于复杂材料合成的工程问题的数值模拟与分析，并理解其局限性。
7. Environment and sustainable development: Understand the policies and laws and regulations of related profession and industry in production, design, research and development, environmental protection and sustainable development principles and evaluate its effect on the sustainable development of environment and society
武汉科技大学培养方案
材料化学专业培养方案
Curriculum of Undergraduate of Material Chemistry Major
一、培养目标 本专业培养适应社会经济发展需要，具有较好自然科学基础和人文社会科学基础、良好的敬业精神 和社会责任感、扎实的材料化学方面专业知识，具有创新精神的高素质创新应用型人才，并期望毕业5年 后能达成下列目标： 1、具有良好的个人修养与社会道德水准； 2、能够进行材料化学相关的新型材料技术与新产品研发、工艺与设备设计和生产技术管理； 3、能够具有一定的团队协作精神和领导能力，在一个科研技术开发团队中能有效地发挥作用； 4.、具备设计、研究和开发新材料、新工艺的能力，在新材料的合成与制备、材料性能分析、材料 应用等领域具有就业竞争力，并有能力进入研究生阶段学习； 5、能够通过终身学习拓展自己的知识和能力； 6、有意愿创新实践，并有能力服务社会。 Ⅰ. Training Objectives This major aims at training undergraduate students to be high level creative talentswith good professional quality,moral cultivation, good employment competitive power and innovation ability. The expected achievements for graduates of Materials Chemistry in 5 years: 1.Good manner and excellent moralities; 2.Ability to conduct research on technology and product of new materials in materials chemistry discipline, the design of technique and equipment as well as management of production technique; 3.Good team spirit and leadership ability to have contributions in a technique developing team; 4.Knowledge and skills of designing, researching and developing new materials and technologies; Advantages in the field of materials preparation, processing, analyzing and application; Abilities to be engaged in postgraduate education; 5.Ability to adapt to the development and to expand the vision and to improve competitiveness through keeping study all their lifelong; 6.Ability to be creative and willing to serve the society. 二、毕业要求 1、工程知识：能够将数学、自然科学、工程基础和专业知识应用于解决材料化学领域的复杂工程问 题。 2、问题分析：能够应用数学、自然科学和工程科学的基本原理，识别、表达、掌握材料科学与工程 学科的基础理论，掌握材料科学和化学科学的基本知识，具有一定的实验操作基本技能，并借助文献研 究分析材料化学领域复杂工程问题，以获得有效结论。 3、设计、开发解决方案：能够针对材料化学领域复杂工程问题进行研究路线设计并提出解决方案， 根据材料合成与制备、材料设计与加工、材料结构与性能测定等方面的专业基础知识和原理，设计制备 新型材料化学体系，并具有分析测试新型材料基本性能和判断应用领域的能力，同时考虑社会、健康、 安全、法律、文化以及环境等因素。 4、实验设计与信息处理：能够基于科学原理并采用科学方法对材料化学领域复杂工程问题进行分析
8、职业道德素养：具有人文社会科学素养、社会责任感，能够在工程实践中理解并遵守工程职业道 德和规范，履行责任。
9、团队合作：能够在多学科背景下的团队中承担个体、团队成员以及负责人的角色。 10、沟通交流：能够就材料设计、合成、制备与测试与业界同行及社会公众进行有效沟通和交流， 包括撰写报告和设计文稿、陈述发言、清晰表达或回应指令。具有国际视野和跨文化的交流、竞争与合 作能力。 11、项目管理：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，理解并掌握工程管理原理与经济决策方法，并能在多学科环境中应用。 12、终身学习意识和能力：了解材料化学的理论前沿、应用前景和最新发展动态，具有自主学习和 终身学习的意识，有不断学习和适应发展的能力。 Ⅱ.Requirements 1. Engineering knowledge: Be able to solve complex engineering problems in the field of materials chemistry by using mathematics, natural science, engineering and professional knowledge. 2. Problem analysis: Be able to use the basic principle of mathematics, natural science and engineering science and master the basic theory of materials science and engineering, materials science and chemical science；possess basic skills of experimental operation and be able to analyze complex engineering problems in materials chemistry by means of literature research to obtain effective conclusions. 3. Design and development of solutions: Be able to design and propose solutions to complex engineering problems in the field of material chemistry, and to design and prepare innovative materials science system according to the professional knowledge and the basic principle of synthesis, preparation, design and processing of materials; Be able to analyze test results and possess operation skills with the consideration of society, health, safety, legal, cultural and environmental factors. 4. Experimental design and information processing: Be able to analyze complex engineering problems in material chemistry field by scientific method based on the scientific principle and to design experiments; Be able to design the synthesis and preparation, production of materials with the comprehensive theories and techniques; Be able to integrate the obtained results and feedbacks to get the rational conclusion. 5. Application of modern tools: Be able to master a foreign language in the information and to use modern information technology to obtain information to understand and analyze practical problems in engineering according to the specific field of professional materials chemistry. 6. Social responsibility consciousness of engineers: Be able to reasonably analyze the evaluation of relevant