The Offset Crashworthiness and Parameter Optimization of C-Shaped Frame for Rail Vehicle Anti-Climbing Device

The Offset Crashworthiness and Parameter Optimization of C-Shaped Frame for Rail Vehicle Anti-Climbing Device

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Thin-walled structures are widely used in anti-collision devices for various vehicles due to their light weight and high energy absorption.Offset collision is a common scene in various traffic accidents.Because the commonly used thin-walled structures do not consider this complex collision method, the energy absorption 9x11 pergola effect of the structure cannot meet the requirements.In this paper, a C-shaped frame structure composed of thin-walled steel tubes is proposed.

The configuration of the structure is studied through theoretical analysis and numerical simulation, and it is found that the structure can absorb energy stably in the offset collision.The offset experiment and simulation were 355 maybelline fit me carried out, and the crashworthiness of the structure was investigated to verify the accuracy and feasibility of the numerical analysis method.A large-scale parameter simulation analysis was carried out, and the influence characteristics of the structure configuration, different materials and different sections were investigated.Based on the above test and numerical analysis results, an optimal design method for improving the crashworthiness of structures considering offset collisions is proposed.

This paper can provide theoretical and technical support for the related research on the integrated anti-climbing energy-absorbing parts of rail trains under offset collision.