A simplified numerical study of wheel/rail material coupling in presence of solid contaminants

IF 1.6 Q4 MATERIALS SCIENCE, COATINGS & FILMS

Tribology - Materials, Surfaces & Interfaces Pub Date : 2020-10-10 DOI:10.1080/17515831.2020.1829877

A. Mazzù, A. Ghidini, N. Zani, M. Faccoli

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引用次数: 5

Abstract

ABSTRACT The effect of material plastic properties in solid-contaminated wheel-rail couplings was studied by simplified finite element models, considering typical couplings of steels following European and American standards. Analyses of non-contaminated contact were performed for comparison. It resulted that in clean contact there is a reciprocal influence, in terms of plastic strain, between the mechanical properties of both contacting bodies. By contrast, in solid-contaminated contact the performance of each contacting body depends mainly on its own properties. A zone of influence of the local contact between the contaminant particles and the main bodies was identified and compared with the damage observed in previous experimental results. Despite the simplifications of the numerical model, this zone can be visibly identified in harder materials and appeared to match the numerically estimated one. In softer materials, owing to the high strain even in the overall contact region, this zone could not be identified. GRAPHICAL ABSTRACT

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固体污染物存在下轮轨材料耦合的简化数值研究

摘要采用简化的有限元模型，考虑符合欧美标准的典型钢制联轴器，研究了材料塑性性能对固体污染轮轨联轴器的影响。对未受污染的接触进行了分析以进行比较。结果表明，在清洁接触中，就塑性应变而言，两个接触体的机械性能之间存在相互影响。相比之下，在固体污染的接触中，每个接触体的性能主要取决于其自身的特性。确定了污染物颗粒和主体之间局部接触的影响区，并将其与先前实验结果中观察到的损伤进行了比较。尽管对数值模型进行了简化，但在较硬的材料中可以明显识别出该区域，并且似乎与数值估计的区域相匹配。在较软的材料中，由于即使在整个接触区域也存在高应变，因此无法识别该区域。图形摘要

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来源期刊

Tribology - Materials, Surfaces & Interfaces MATERIALS SCIENCE, COATINGS & FILMS-

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2.80

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0.00%

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