Strain-Based Assessment to Evaluate Damage Caused by Deep Rolling

The positive effects of deep rolling on fatigue strength-reduced surface roughness, work hardening and compressive residual stress-in the near-surface region are achieved by controlled high plasticisation of the treated material. However, excessive and/or repeated plasticising poses a risk of damage...

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Veröffentlicht in:	Materials 2024-05, Vol.17 (9), p.2163
Hauptverfasser:	Pertoll, Tobias, Leitner, Martin, Buzzi, Christian, Boronkai, László
Format:	Artikel
Sprache:	eng
Schlagworte:	Comparative analysis Compressive properties Compressive strength Costs (Law) Crack initiation Crack propagation Damage assessment Damage detection Energy consumption Experiments Fatigue strength Feed rate Heat treating Load Propagation Railroads Residual stress Shafts (machine elements) Simulation Surface roughness Work hardening
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creator	Pertoll, Tobias Leitner, Martin Buzzi, Christian Boronkai, László
description	The positive effects of deep rolling on fatigue strength-reduced surface roughness, work hardening and compressive residual stress-in the near-surface region are achieved by controlled high plasticisation of the treated material. However, excessive and/or repeated plasticising poses a risk of damage to the machined component. This paper investigates the damage caused by deep rolling of a railway axle. Two sections of the axle are experimentally deep rolled repeatedly at different feed rates until damage is detected. For comparative analysis, these experiments are numerically analysed and the damage is assessed using the strain-based damage calculation. The results are compared and a damage sum of ~120% is evaluated for both tests, thus developing a reliable and conservative assessment method. The single deep rolling treatment at a feed rate of 0.25 mm causes damage of 6.1%, and at a feed rate of 0.5 mm, damage of 4.7%. The developed and experimentally validated evaluation method allows for investigating the limits of applicability of different deep rolling parameters. The influence of the deep rolling force and feed rate and a proposed optimisation with multiple deep rolling with reduced deep rolling forces are investigated.
doi_str_mv	10.3390/ma17092163
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subjects	Comparative analysis Compressive properties Compressive strength Costs (Law) Crack initiation Crack propagation Damage assessment Damage detection Energy consumption Experiments Fatigue strength Feed rate Heat treating Load Propagation Railroads Residual stress Shafts (machine elements) Simulation Surface roughness Work hardening
title	Strain-Based Assessment to Evaluate Damage Caused by Deep Rolling
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