Improved Multibody Dynamics for Investigating Energy Dissipation in Train Collisions Based on Scaling Laws-Reference-Cited by-同舟云学术

Improved Multibody Dynamics for Investigating Energy Dissipation in Train Collisions Based on Scaling Laws

Published:2016 Issue: Volume:2016 Page:1-11
ISSN:1070-9622
Container-title:Shock and Vibration
language:en
Short-container-title:Shock and Vibration

Author:

Shao Heng¹,Xu Ping¹^ORCID,Yao Shuguang¹,Peng Yong¹,Li Rui¹,Zhao Shizhong²

Affiliation:

1. Key Laboratory of Traffic Safety on Track, Ministry of Education, School of Traffic & Transportation Engineering, Central South University, Changsha, Hunan 410075, China

2. China South Locomotive and Rolling Stock Industry, Sifang Locomotive and Rolling Stock Co., Ltd., Qingdao, Shandong 266111, China

Abstract

This study aimed to investigate energy dissipation in train collisions. A 1/8 scaled train model, about one-dimensional in longitudinal direction, was used to carry out a scaled train collision test. Corresponding multibody dynamic simulations were conducted using traditional and improved method model (IMM) in ADAMS. In IMM, the connection between two adjacent cars was expressed by a nonlinear spring and energy absorbing structures were equivalently represented by separate forces, instead of one force. IMM was able to simulate the motion of each car and displayed the deformation of structures at both ends of the cars. IMM showed larger deformations and energy absorption of structures in moving cars than those in stationary cars. Moreover, the asymmetry in deformation proportion in main energy absorbing structures decreased with increasing collision speed. The asymmetry decreased from 11.69% to 3.60% when the collision speed increased from 10 km/h to 36 km/h.

Funder

Nation Key Technology R&D Program

Publisher

Hindawi Limited

Subject

Mechanical Engineering,Mechanics of Materials,Geotechnical Engineering and Engineering Geology,Condensed Matter Physics,Civil and Structural Engineering

Link

http://downloads.hindawi.com/journals/sv/2016/3084052.pdf

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1. Robot Dynamics Algorithms

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