Numerical Study of Crack Prediction and Growth in Automotive Wheel Rims

Materials (Basel). 2024 Feb 22;17(5):1020. doi: 10.3390/ma17051020.

Abstract

Finite element analysis has become an essential tool for simulating and understanding crack growth. This technique holds significant importance in the field of mechanical engineering, where it finds wide application in the design and optimization of structural components and material properties. This work began with the identification of critical zones and estimated the number of load life repeats through fatigue analysis, specifically applied to automotive rims utilizing innovative finite element methods. To investigate crack behavior, we are used the Extended Finite Element Method (XFEM) with the volumetric approach to compute the Stress Intensity Factor (SIF). The results obtained by our study align closely with experimental tests in terms of detecting the critical zone where a crack can appear. Our findings contribute to the understanding of fatigue behavior in automotive rims, offering new insights into their structural integrity and performance under various load conditions.

Keywords: XFEM; crack; failure; wheel rim.

Grants and funding

This research received no external funding. The APC was founded by Transilvania University of Brasov.