Fatigue Behaviour of Tempered and Isothermal Heat Treated Aisi 5160 Leaf Spring Steel

Abstract: The oil quench and temper technique have a lot of benefits for heavy duty spring manufacture since it may expose the best balance of toughness and ductility, as well as increase fatigue life. The current study looked at the fatigue behavior of tempered AISI 5160 leaf spring steel samples at tempering temperatures of 400, 450, 500, 550, and 600 °C, as well as isothermally heat- treated steel samples at 830 °C. All leaf spring steel samples that had undergone thermal tempering and isothermal heat treatment were … Show more

“…The sliding dry wear behavior of martensite steel under various friction circumstances was taken into consideration by the authors of [23]- [24]. After being quenched and tempered twice, the microstructures and mechanical characteristics of steels with various carbon contents were examined [25]- [27]. The primary cause of this effect is the deformation of the original microstructures, which had an impact on how the microstructure changed during quenching and tempering [29]- [30].…”

The Influence of Repeated Heat Treatments on The Propagation of Fatigue Cracking of Medium Carburized Steel

“…The sliding dry wear behavior of martensite steel under various friction circumstances was taken into consideration by the authors of [23]- [24]. After being quenched and tempered twice, the microstructures and mechanical characteristics of steels with various carbon contents were examined [25]- [27]. The primary cause of this effect is the deformation of the original microstructures, which had an impact on how the microstructure changed during quenching and tempering [29]- [30].…”

The Influence of Repeated Heat Treatments on The Propagation of Fatigue Cracking of Medium Carburized Steel