2019
DOI: 10.1177/0954409719848592
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Assessing the fast non-Hertzian methods based on the simulation of wheel–rail rolling contact and wear distribution

Abstract: This paper aims at assessing several fast non-Hertzian methods, coupled with two wear models, based on the wheel–rail rolling contact and wear prediction. Four contact models, namely Kik-Piotrowski's method, Linder's method, Ayasse-Chollet's STRIPES algorithm and Sichani's ANALYN algorithm are employed for comparing the normal contact. For their tangential modelling, two tangential algorithms, i.e. FASTSIM and FaStrip, are used. Two commonly used wear models, namely the Archard (extended at the KTH Royal Insti… Show more

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Cited by 18 publications
(12 citation statements)
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“…(i) In previous comparative studies [27][28][29][30], the normal modeling used simplified contact models, namely, KP, Linder, STRIPES, and ANALYN. Their normal results were only similar to the exact solution and then the inaccurate traction bound (the product of normal pressure and friction coefficient) could affect the prediction of stick-slip division and tangential stress distribution in tangential modeling.…”
Section: Generalmentioning
confidence: 99%
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“…(i) In previous comparative studies [27][28][29][30], the normal modeling used simplified contact models, namely, KP, Linder, STRIPES, and ANALYN. Their normal results were only similar to the exact solution and then the inaccurate traction bound (the product of normal pressure and friction coefficient) could affect the prediction of stick-slip division and tangential stress distribution in tangential modeling.…”
Section: Generalmentioning
confidence: 99%
“…where k(x, y) is the wear rate associated with pressure p(x, y), running speed v, relative slip s(x, y), and hardness of wheel-rail material H as shown in Figure 5. For a detailed explanation of this method, the readers are referred to [28,34].…”
Section: Linder's Approachmentioning
confidence: 99%
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