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Exploring the effect of complex hierarchic microstructure of quenched and partitioned martensitic stainless steels on their high cycle fatigue behaviour

Andrés Sierra-Soraluce, Gaojie Li, María J. Santofimia, J.M. Molina-Aldareguía, Ali Smith, Marta Muratori, I. Sabirov

2023Materials & Design17 citationsDOIOpen Access PDF

Abstract

Recent studies have demonstrated the viability of quenching and partitioning (Q&P) treatment for processing martensitic stainless steels showing an improved balance of high strength and sufficient ductility. However, to date, the fatigue behaviour of these materials has not been explored. This study examines the effect of their complex hierarchic microstructure on high cycle fatigue performance. Three steels with different alloying element contents underwent Q&P processing, resulting in multiphase microstructures rich in retained austenite. High cycle fatigue tests and analysis of fatigue fracture surfaces were performed using SEM and EBSD techniques. The results indicate satisfactory high cycle fatigue performance in Q&P treated martensitic stainless steels, surpassing traditional counterparts. Fatigue cracks predominantly form and propagate along martensite packet and block boundaries, while prior austenite grain boundaries and MnS inclusions have minimal influence on fatigue crack formation and growth. Microplastic deformation at the fatigue crack tip enhances local KAM values and triggers localized transformation of retained austenite grains. It is hypothesized that the developed Q&P treated martensitic stainless steels exhibit improved resistance to low cycle fatigue.

Topics & Concepts

Materials scienceAusteniteMartensiteMicrostructureMetallurgyDuctility (Earth science)Diffusionless transformationElectron backscatter diffractionQuenching (fluorescence)Fatigue limitDeformation (meteorology)Composite materialCreepQuantum mechanicsPhysicsFluorescenceMicrostructure and Mechanical Properties of SteelsFatigue and fracture mechanicsHydrogen embrittlement and corrosion behaviors in metals
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