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客运列车耐冲击吸能车体设计方法
引用本文:田红旗.客运列车耐冲击吸能车体设计方法[J].交通运输工程学报,2001,1(1):110-114.
作者姓名:田红旗
作者单位:中南大学高速列车研究中心,
摘    要:为了减轻客运列车碰撞事故造成的损失,实现被动安全保护,对组成列车的动车、客车车体结构提出了新的设计方法,重新分配车体各部分刚度,设计出具有合适吸能结构的耐冲击车体,车体结构均按前、中、后三种纵向刚度设置,前后两部分为可以产生塑性变形的弱刚度吸能结构,中间部分为仅产生弹性变形的强刚度弹变结构。当列车在正常运行时,车体有足够的强度和刚度,需要满足有关规范规定的强度、刚度要求;在较高速下发生碰撞事故时,吸能结构能够沿所需方向产生塑性大变形吸收足够冲击动能,保证机器间和乘客区不发生破坏,并延缓碰撞作用时间,降低碰撞瞬间最大减速度,使撞击减速度在人体承受范围内。

关 键 词:客运列车  吸能车体  设计方法
修稿时间:2000年10月18

Crashworthy Energy Absorbing Car-body Design Method for Passenger Train
TIAN Hong-qi.Crashworthy Energy Absorbing Car-body Design Method for Passenger Train[J].Journal of Traffic and Transportation Engineering,2001,1(1):110-114.
Authors:TIAN Hong-qi
Abstract:In order to reduce the losses suffered from collision between passenger trains,a new design method for the car body structure of motor car and trailer is advanced.Car body structures are made up of three parts with diffferent stiffness,by carefully designed.The parts of the front and the end are the weak stiffness structure to absorb energy through plastic deformation in the collision.The middle part,where only elastic deformation occurs,is an elastic deformation structure with strong stiffness.As the passenger train runs normally,car body structure measure up to regulation of intensity and stiffness in the standards.Once collision accident occurred when the train is moving with fairly high speed,the energy absorbing structure produces large plastic deformation along the direction needed to absorb sufficient energy,at the same time,the deceleration must be controlled within the endurable limits to human body.
Keywords:passenger train  energy  absorbing car body  design method
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