本科生教育
专业介绍
培养方案
课程设置

航空航天学院 飞行器设计与工程专业

一、培养目标

Program Objective

以学生的全面发展为中心,培养热爱航空航天事业,具有坚实的航空航天专业知识和专业能力,具有良好的数学、力学基础,掌握飞行器设计基本理论和工程应用等专门知识,能从事飞行器总体设计、气动外形设计、性能计算与分析、系统设计、结构设计、结构受力与分析,飞行器控制与导航、飞行器通信与制导、飞行器动力与推进、航空运行管理、飞行器制造生产、科研教学及技术经济管理等方面的宽口径高级复合型人才,具备积极持久的主动学习和思考的动力,具有坚实的航空航天专业知识和能力、具有批判性思维和创新能力的行业领军人才。

This program focuses on the full development of student’s comprehensive capabilities in the field of Aerospace Engineering, and cultivates the students' interests in aerospace entrepreneurs. The graduates will display high standard of professional knowledge and capability, solid foundation in mathematics and mechanics. They will master fundamental theories and practical techniques in the design of flight vehicles. As such, the graduates are able to meet the demands for flight vehicle overall design, aerodynamic layout design, flight performance computation & analysis, system design, structure design, flight control and navigation, flight communication, propulsion, airtraffic operation management, aerospace manufacture. The graduates will be well prepared for scientific research and teaching, economy and technology management. The graduates will also be trained with lifelong learning, pursuing research, critical and creative thinking ability, which will help them to become the leaders in aerospace engineering industry, academia, and government.

二、基本规格要求

Ⅱ.Learning Outcomes

毕业生应获得以下几方面的知识和能力:

1. 具有一定的人文社会科学和自然科学基本理论知识,有较好的人文素质。

2. 系统地掌握本专业必需的技术基础理论,主要包括力学、热学、机械工程、电工与电子、自动控制及能源动力工程基础理论等。

3. 掌握与飞行器设计相关的,包括总体设计、空气动力学、航天器设计、飞行器控制,航空航天电子、流体力学、航空航天飞行器推进,实验力学等基本理论和基本知识,了解本专业领域的理论(学科)前沿、应用前景和发展动态。

4. 具有飞行器设计的基本技能,掌握相关的计算、测试、试验和软件开发能力。

5. 掌握文献检索、资料查询的基本技能,具备一定的科学研究和实际工作能力。

6. 掌握一门外国语,要求能阅读专业书刊,并有熟练、流畅的国际交流能力。

7. 具有一定计算机相关知识和较强的计算机应用能力,能熟练使用计算机解决工程中的有关问题。

8. 具有较强的自学能力、分析能力和创新意识。

9. 熟悉本专业领域的方针、政策和法规。

Our graduates will acquire to:

1. Have some fundamental theories and knowledge of social science and natural science, as well as humanities & art.

2. Systematically understand essential theories in Mechanics, Thermology, Mechanical Engineering, Electrical & Electronic, Automatic Control, and Energy & Power Engineering.

3. Master the fundamental principles and knowledge in the field of flight vehicles, including Overall Design, Aerodynamics, Spacecraft Design, Aircraft Control, Aerospace Electronic, Fluid Mechanics, Spacecraft & Aircraft Propulsion, and Experimental Mechanics. Understand theory (discipline) frontier, application prospects, and development trends in this field.

4. Own solid skills of flight vehicle design and the capability in computation, test, experiment, and software development.

5. Have basic skills of document searching and database querying, and also have the ability to conduct scientific research and practical work.

6. Be fluent in a foreign language and have good ability to communicate with internations.

7. Have the fundamental knowledge of computer science and the ability to use computers to solve problems in engineering.

8. Have the ability in self-study, analysis and new knowledge creation.

9. Be familiar with guidelines, policies, laws and regulations in aerospace.

三、培养特色

Ⅲ.Program Highlights

数学、物理、力学等基础扎实;与机械、信息、计算机、自动化、控制等结合,专业知识面宽广;注重学科前沿和发展趋势;强化实践创新能力。

The students will have solid foundations on Maths, Physic and Mechanics; broad knowledge sptrucm in MechanicalInformation, Computer Science, Automation and Controlling; focus on the scientific frontier, cutting edge technology and development trends; strong ability in the practical and new knowledge creation.

四、主干学科

Ⅳ.Major Disciplines

航空航天工程、力学、机械工程、计算机科学与技术、信息及自动化技术等。

Aerospace Engineering, Mechanics, Mechanical Engineering, Computer Science and Technology, Information and Automation Technology, etc.

华中科技大学航空航天学院 版权所有     湖北省武汉市洪山区珞喻路1037号 邮编:430074