Abstract
To understand and analyse fatigue cracking that occurred in heavy truck trailers, a framework based on the damage tolerance concept was proposed to investigate the structural integrity of a high-strength steel trailer structure and to improve its fatigue resistance through local geometric modifications. To illustrate the framework, the fatigue behaviour at a critical region located at a circular cut-out in the trailer was studied. Firstly, a simulated loading spectrum was developed based on the dynamic analysis of a trailer under different driving scenarios together with the FEA analysis of the trailer structure. After that, for the fatigue analysis, crack growth rate at the critical region was computed using the NASGRO equation, and the fatigue life associated with the simulated loading spectrum was predicted. This damage tolerance approach was further applied to explore possible new designs of trailer structures with either improved fatigue performance or reduced tare weight. The results indicate that the proposed framework can be utilised to both monitor the structural integrity of current vehicle structures and design future trailers with longer life and lighter weight.
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