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2014年汽车安全技术培训第八期课程内容

添加时间:2014-11-13 点击次数:1344

培训日期:2014年11月13日-11月15日

Traing date : 13th. NOV.-15th.NOV. 2014


培训内容:基于耐撞发展的实例

Training contents: Example-Based Crashworthiness Development


培训讲师:Axel Schumacher 博士

Trainer: Prof. Axel Schumacher


课程描述:

Course Description:

 严格的法规和NCAP评估使汽车的碰撞性能成为汽车开发的重要指标之一。所以这就迫使汽车设计者必须具备良好的车身结构及相关碰撞知识。而只有当这些知识和现代设计合并的时候才能在汽车开发时少走弯路、使理论发挥最大的作用。本课程的目的是通过一些成功案例来介绍汽车开发的有效方法。

 本课程由以下几部分组成:首先是碰撞现象的描述方法的介绍;其次是最新汽车设计工具(CAD/CAE)的介绍;最后是介绍典型的成功案例,通过这些案例分析了这些设计的开发思路以及实现设计目标所采用的一些具体手段。同时还介绍一些汽车结构设计中常用的优化方法。

Stringent legal and consumer-protection requirements around the world have made crashworthiness one of the most important requirements in automotive development. Therefore it is mandatory that designers have a good understanding of the crash behavior of mechanical structures. The combination of knowledge about mechanics and the ability to use modern design tools allows for an efficient development process without unnecessary design iterations. The objective of the seminar is to present current methods and successful solutions for crashworthy car body design.

At the beginning of the course the mechanical phenomena of crash events will be discussed. Subsequently modern development methods (CAD design and crash simulation) will be treated. Finally the course will present solutions of current vehicles and demonstrate how the crashworthiness design has been successfully employed in these vehicles. Mathematical optimization technologies for structural design – which are increasingly used in industry – will be covered at the end of the course.


谁应该参加 Who should attend?

车身设计工程师及CAE工程师, 项目经理及车身开发相关管理人员。

This 3 day course addresses designers and simulation engineers as well as project leaders and managers working in car body development and analysis.


 课程内容:

Course Contents:

1.碰撞现象的分析原理;碰撞加速度; 碰撞负载; 碰撞现象的观察分析; 稳定性问题; 材料朔性理论,

2.设计方法; CAE模拟设计; 参数相关设计; 可能性及局限性,

3.碰撞的模拟; 汽车机构的有限元模型; 有限元的阳解法; 可能性及局限性,

4.成功案例中的安全亮点分析; 车身结构(负载的预测、设计原理、吸能部件); 车体; 安全系统; 行人保护; 事故处理,

5.优化的应用; 逼近技术; 优化软件及策略; 型函数及拓扑优化。

1.Mechanics of crash events, Accelerations during collisions, Structural loading during collisions, Examination of real crash events, Stability problems, Plasticity.

2.Design methods, CAE conform design, Parametric and associative design, Possibilities and limitations.

3.Crash Simulation, Finite Element modeling of a car body, Finite Element analysis with explicit methods, Possibilities and limitations.

4.Technical implementation of safety measures by examples, Structure (load estimates, design principles, energy absorbing members), Car bodies, Safety systems, Pedestrian protection, Post crash.

5.Use of mathematical optimization procedures on real world applications, Approximation techniques,Optimization software & strategies, Shape and topology optimization.

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