Influence of White Etching Bands Formation on Integrity of Rolling Element Bearings

Pub Date : 2023-10-31 DOI:10.2474/trol.18.373
Mostafa El Laithy, Ling Wang, Terry J. Harvey, Bernd Vierneusel
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Abstract

The development of subsurface microstructural alterations known as dark etching regions (DERs) and white etching bands (WEBs) in rolling element bearings due to rolling contact fatigue have been investigated for the past eight decades, focusing on their initiation and formation mechanisms. They have only recently been shown to be driven by repetitive cycles of energy build-up due to micro-plastic deformation and energy release through recrystallization and recovery, which results in the formation of equiaxed and elongated ferrite grains, as well as lenticular carbides. These features develop within the bearing subsurface from DER to WEBs during bearing operation at moderate to high loads, but little evidence has been presented in the literature to understand links between DER and WEBs and the nucleation and growth of subsurface cracks. This investigation examines WEBs, including low angle bands (LABs) and high angle bands (HABs), in detail especially focusing on their late stages to understand such links. A number of techniques, including optical microscopy, scanning electron microscopy (SEM) and Energy-dispersive X-ray spectroscopy (EDX) have been used to examine the features involved. Analysis on WEBs obtained through serial sectioning has revealed that voids initiating at the interface between lenticular carbides and equiaxed ferrite grain bands within WEBs have led to crack formation which can subsequently propagate to bearing surfaces. Interactions between WEBs and non-metallic inclusions (NMIs) are observed to lead to de-bonding of inclusions from their surrounding microstructure and void formation, which has also found to influence the integrity of the bearings at late stages. Alumina and Manganese sulphide (MnS) inclusions are the mostly observed NMIs that de-bond and develop microcracks when interacting with WEBs. These findings thus provide important insights into the link between inclusions and crack initiation and represent a further step towards a fundamental understanding of the rolling contact fatigue process.
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白色腐蚀带形成对滚动轴承完整性的影响
在过去的八十年里,人们研究了滚动接触疲劳引起的滚动轴承表面下微结构变化的发展,即暗腐蚀区(DERs)和白腐蚀带(web),重点研究了它们的产生和形成机制。直到最近才被证明是由微塑性变形引起的能量积累和通过再结晶和恢复释放的能量的重复循环驱动的,这导致了等轴和细长铁素体晶粒的形成,以及透镜状碳化物。这些特征在轴承在中高载荷下运行时从DER到腹板的轴承亚表面内发展,但文献中很少有证据表明DER和腹板与亚表面裂纹的成核和生长之间的联系。本研究考察了网络,包括低角度带(LABs)和高角度带(HABs),特别关注其后期阶段,以了解这种联系。许多技术,包括光学显微镜,扫描电子显微镜(SEM)和能量色散x射线光谱学(EDX)已经被用来检查所涉及的特征。通过连续切片分析获得的腹板表明,腹板内透镜状碳化物和等轴铁素体晶粒带之间的界面上产生的空隙导致裂纹的形成,并随后扩展到轴承表面。观察到web与非金属夹杂物(nmi)之间的相互作用导致夹杂物与周围微观结构的脱键和空洞的形成,这也影响了后期轴承的完整性。氧化铝和硫化锰(MnS)包裹体是与web相互作用时最常见的脱键和微裂纹的nmi。因此,这些发现为夹杂物和裂纹萌生之间的联系提供了重要的见解,并代表着对滚动接触疲劳过程的基本理解的进一步发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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