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Differences between internal and external hydrogen effects on slow strain rate tensile test of iron-based superalloy A286

Akihiko Fukunaga

2021International Journal of Hydrogen Energy22 citationsDOIOpen Access PDF

Abstract

To investigate the evaluation method of hydrogen compatibility of A286 superalloy in high pressure hydrogen gas, SSRT tests of hydrogen-charged specimens were conducted at ambient temperature at various strain rates. The relative reduction in area (RRA), one of the ductility parameters, was determined. The hydrogen content in the hydrogen-charged specimen was the same as the equilibrium hydrogen content on the specimen surface at 150 °C in 70 MPa hydrogen gas. The strain rate dependence of RRA was smaller than that of RRA obtained in 70 MPa hydrogen gas at 150 °C. All the hydrogen-charged specimens showed slip-plane fractures in the grains in their cores. However, the specimens in 70 MPa hydrogen gas at 150 °C showed fracture surfaces morphology ranging from dimples to quasi-cleavages and intergranular fractures with decreasing strain rate. These dissimilarities are expected to arise from differences in the hydrogen concentration behaviors of the specimens during the deformation process.

Topics & Concepts

HydrogenDimpleMaterials scienceSuperalloyStrain rateHydrogen embrittlementSlip (aerodynamics)MetallurgyTensile testingUltimate tensile strengthDuctility (Earth science)Composite materialChemistryMicrostructureThermodynamicsCreepOrganic chemistryPhysicsCorrosionHydrogen embrittlement and corrosion behaviors in metalsNuclear Materials and PropertiesHigh Temperature Alloys and Creep
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