Contact Fatigue Analysis of a Dented Surface in a Dry Elastic–Plastic Circular Point Contact

A coupled multibody elastic–plastic finite element (FE) model was developed to investigate the effects of surface defects, such as dents on rolling contact fatigue (RCF). The coupled Voronoi FE model was used to determine the contact pressure acting over the surface defect, internal stresses, damage, etc. In order to determine the shape of a dent and material pile up during the over rolling process, a rigid indenter was pressed against an elastic plastic semi-infinite domain. Continuum damage mechanics (CDM) was used to account for material degradation during RCF. Using CDM, spall initiation and propagation in a line contact was modeled and investigated. A parametric study using the model was performed to examine the effects of dent sharpness, pile up ratio, and applied load on the spall formation and fatigue life. The spall patterns were found to be consistent with experimental observations from the open literature. Moreover, the results demonstrated that the dent shape and sharpness had a significant effect on pressure and thus fatigue life. Higher dent sharpness ratios significantly reduced the fatigue life.

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Optimized Mapping of Pressure in Lubricated Point Contacts Based on Measured Film Thickness

Volume 8: Heat Transfer, Fluid Flows, and Thermal Systems, Parts A and B ◽

10.1115/imece2007-41382 ◽

2007 ◽

Author(s):

Radek Polisˇcˇuk ◽

Michal Vaverka ◽

Martin Vrbka ◽

Ivan Krˇupka ◽

Martin Hartl

Keyword(s):

Film Thickness ◽

Numerical Solution ◽

Point Contact ◽

Contact Fatigue ◽

Lubricant Film ◽

Rolling Contact ◽

Experimental Film ◽

Lubricated Contacts ◽

Practical Performance ◽

Traction Drives

The surface topography plays significant role in lifetime of highly loaded machine parts with lubricated contacts. Many elements like gears, rolling bearings, cams and traction drives operate in mixed lubrication conditions, where the lubricant film behavior closely implies the main practical performance parameters such as friction wear, contact fatigue and scuffing. For prediction of wear and especially contact fatigue, the values and distribution of the pressure in rolling contact are often required. The usual theoretical approach based on numerical solution of physical-mathematical models built around the Reynolds equation can be extremely time consuming, especially when lubricant films are very thin, and contact load and required resolution very high. This study presents a further refined approach to our previously published experimental method, based on on inverse elasticity theory and fast convolution transformation between the lubricant film thickness map and the pressure distribution within the point contact. The experimental film thickness maps of EHD lubricated contacts with smooth and dented surfaces were processed using colorimetric interferometry and validated using numerical solution, in order to calibrate numerical parameters and to find limits of the new approach.

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Rolling contact fatigue analysis of rails inculding numerical simulations of the rail manufacturing process and repeated wheel-rail contact loads

International Journal of Fatigue ◽

10.1016/s0142-1123(02)00147-0 ◽

2003 ◽

Vol 25 (6) ◽

pp. 547-558 ◽

Cited By ~ 47

Author(s):

J Ringsberg

Keyword(s):

Numerical Simulations ◽

Manufacturing Process ◽

Rolling Contact Fatigue ◽

Contact Fatigue ◽

Fatigue Analysis ◽

Rolling Contact ◽

Contact Loads

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Contact Fatigue Life Investigations and Wear Mechanisms of Different Case Hardened and Nidrided Steels

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.604.51 ◽

2014 ◽

Vol 604 ◽

pp. 51-54

Author(s):

Andreas Trausmuth ◽

Istvan Godor ◽

Alexander Dietrich

Keyword(s):

Crack Initiation ◽

Rolling Contact Fatigue ◽

Point Contact ◽

Contact Fatigue ◽

Compound Layer ◽

Fatigue Behaviour ◽

Rolling Contact ◽

Contact Fatigue Life ◽

Nitrided Surface ◽

Lower Contact

The present work examines experimentally the local damage evolution and compares the differences in fatigue behaviour of case-hardened and plasma nitrided layers under rolling contact fatigue (RCF). The RCF experiments are accompanied by damage assessments. In order to assess experimentally the extreme conditions of point contact, the experiments are performed on a ball-on-rod (BoR) test rig. Results showed that nitrided surface get more important to RCF at lower contact pressure due to the comparable thin nitration depth, whereas at high contact stress the crack initiation starts on the surface of the compound layer and crack grow further in the diffusion layer. The carburised layer of case-hardened surfaces do not show any surface crack initiation.

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