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On the microstructure and high cycle fatigue of near-net shape PM-HIPed Inconel 625

Faezeh Javadzadeh Kalahroudi, Mohamed Sadek, Pavel Krakhmalev, Tomas Berglund, Jens Bergström, Mikael Grehk

2023Materials Science and Engineering A15 citationsDOIOpen Access PDF

Abstract

This paper investigated the microstructure and fatigue behavior of PM-HIPed Inconel 625. The microstructure was composed of γ phase and (Mo, Nb) carbonitrides located mostly on prior particle boundaries. Despite the presence of these carbonitrides, the samples showed good tensile properties with high elongation. Two different surface conditions, pickled and machined, were used for high cycle fatigue testing under a four-point bending test. The results indicated that pickled samples had 6% lower fatigue strength (at 106 cycles) with three times higher standard deviation compared to the machined ones. Fatigue failure mechanisms were found to be dependent on surface conditions and showed different failure modes due to non-metallic oxide inclusions and surface defects in samples with machined and pickled surfaces, respectively. The effect of type, size, and location of defects, multiplicity of crack initiations, as well as surface roughness were analyzed and discussed.

Topics & Concepts

Materials scienceMicrostructureInconelMetallurgyUltimate tensile strengthInconel 625Fatigue testingElongationSurface finishSurface roughnessOxideComposite materialAlloyAdditive Manufacturing Materials and ProcessesPowder Metallurgy Techniques and MaterialsNuclear Materials and Properties
On the microstructure and high cycle fatigue of near-net shape PM-HIPed Inconel 625 | Litcius