Title of article
The Effects of Thin-Walled Structure on Vehicle Occupants’ Safety and Vehicle Crashworthiness
Author/Authors
Balaei Sahzabi, Ali Department of Mechanical Engineering - Isfahan University of Technology, Isfahan , Esfahanian, Mohsen Department of Mechanical Engineering - Isfahan University of Technology, Isfahan
Pages
11
From page
2391
To page
2401
Abstract
This article investigates the effects of using a thin-walled structure in the chassis front rails in the automotive
industry. In frontal accidents, the front rails of the vehicle chassis, increases vehicle crash-worthiness and occupants’
safety by plastic deformation, energy absorption, increasing the crash duration and reducing the load and injuries to the
occupants. The objective is to optimize the thin-walled structure of the bumper and the direct beams in the front chassis
rails. An explicit FEM full vehicle model with a dummy, safety belts, and air bags are used for the modeling and
analysis of the applied loads on the vehicle and the occupants. The FMVSS No. 208 and ECE No. 94 standards are
considered for the simulation of a vehicle accident. Finally, the proper model will be selected based on the results.
Keywords
Crashworthiness , Chassis front rails , Thin-walled structure , Energy absorption , Head injury criteria , Crash time
Journal title
Astroparticle Physics
Serial Year
2017
Record number
2467509
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