Computational Model for a High Speed Train Running on the Railway Structure Including Derailment during an Earthquake-Reference-Cited by-同舟云学术

Computational Model for a High Speed Train Running on the Railway Structure Including Derailment during an Earthquake

Published:2012-10 Issue: Volume:579 Page:473-482
ISSN:1662-8985
Container-title:Advanced Materials Research
language:
Short-container-title:AMR

Author:

Tanabe Makoto¹,Wakui Hajime²,Sogabe Masamichi²,Matsumoto Nobuyuki²,Gotou Keiichi²,Tanabe Yasuko³

Affiliation:

1. Kanagawa Institute of Technology

2. Railway Technical Research Institute

3. Laboratory for Computational Mechanics Incorporated

Abstract

The computational method to solve for the dynamic interaction between a high-speed train and the railway structure including derailment during an earthquake is given. The motion of the train is expressed in multibody dynamics. Efficient mechanical models to express contact-impact behaviors between wheel and the track structure including derailment during an earthquake are given. Rail and track elements with multibody dynamics and FEM combined have been developed. A nonlinear spring element based on a trilinear elastic-plastic material model with the kinematic hardening is given for a concrete railway structure under cyclic loads during an earthquake. The motion of a railway structure is modeled with various finite elements and also with rail and track elements. A modal reduction is applied to solve the problem effectively. An exact time integration scheme has been developed that is free from the round-off error for very small time increments needed to solve the interaction between wheel and railway structure including derailment during an earthquake. Numerical examples are demonstrated.

Publisher

Trans Tech Publications, Ltd.

Subject

General Engineering

Link

https://www.scientific.net/AMR.579.473.pdf

Reference11 articles.

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