Experimental and numerical investigation of the deep rolling process focussing on 34CrNiMo6 railway axles

Experimental and numerical investigation of the deep rolling process focussing on 34CrNiMo6 railway axles

Deep rolling is a powerful tool to increase the service life or reduce the weight of railway axles. Three fatigue-resistant increasing effects are achieved in one treatment: lower surface roughness, strain hardening and compressive residual stresses near the surface. In this work, all measurable cha...

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Veröffentlicht in:International journal of material forming 2023-09, Vol.16 (5), Article 51
Hauptverfasser: Pertoll, Tobias, Buzzi, Christian, Dutzler, Andreas, Leitner, Martin, Seisenbacher, Benjamin, Winter, Gerhard, Boronkai, László
Format: Artikel
Sprache:eng
Schlagworte:
CAE) and Design
Compressive properties
Computational Intelligence
Computer-Aided Engineering (CAD
Control
Depth profiling
Dynamical Systems
Engineering
Hardness
High strength steels
Investigations
Machines
Manufacturing
Materials Science
Mechanical Engineering
Microstructure
Optimization
Original Research
Processes
Residual stress
Service life
Shafts (machine elements)
Simulation
Simulation models
Strain hardening
Surface roughness
Vibration
Weight reduction
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Zusammenfassung:Deep rolling is a powerful tool to increase the service life or reduce the weight of railway axles. Three fatigue-resistant increasing effects are achieved in one treatment: lower surface roughness, strain hardening and compressive residual stresses near the surface. In this work, all measurable changes introduced by the deep rolling process are investigated. A partly deep-rolled railway axle made of high strength steel material 34CrNiMo6 is investigated experimentally. Microstructure analyses, hardness-, roughness-, FWHM- and residual stress measurements are performed. By the microstructure analyses a very local grain distortion, in the range 
ISSN:1960-6206
1960-6214
DOI:10.1007/s12289-023-01775-y