In this paper, the extension of the FASTSIM algorithm to a SDEC region is implemented and a strategy is proposed to generalise this algorithmto any general non-elliptic contact patch. The extended FASTSIM is applied to the prediction of wheel wear and rolling contact fatigue under typical non-Hertzian wheel/rail contact conditions, using CONTACT as a reference and showing that the extended version of FASTSIM proposed in this work provides more accurate solutions for non-Hertzian contact conditions, compared to other widely used formulations of FASTSIM.
Application of the extended FASTSIM for non-Hertzian contacts towards the prediction of wear and rolling contact fatigue of wheel/rail systems
B. Liu;S. Bruni
2024-01-01
Abstract
In this paper, the extension of the FASTSIM algorithm to a SDEC region is implemented and a strategy is proposed to generalise this algorithmto any general non-elliptic contact patch. The extended FASTSIM is applied to the prediction of wheel wear and rolling contact fatigue under typical non-Hertzian wheel/rail contact conditions, using CONTACT as a reference and showing that the extended version of FASTSIM proposed in this work provides more accurate solutions for non-Hertzian contact conditions, compared to other widely used formulations of FASTSIM.File in questo prodotto:
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liu-bruni-2023-application-of-the-extended-fastsim-for-non-hertzian.pdf
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FASTSIM_SDEC_wear_RCF_rev_upload.pdf
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