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Beneficial role of the grain boundary precipitates for intergranular creep fracture of 25Cr–20Ni–Nb–N steel

Tomotaka Hatakeyama, Kota Sawada, Kaoru Sekido, Kazuhiro Kimura

2023Materials Science and Engineering A15 citationsDOIOpen Access PDF

Abstract

Creep deformation and fracture behavior of pre-aged 25Cr–20Ni–Nb–N steel were examined to determine the effect of the M23C6 phase precipitated on the grain boundary in the initial microstructure. Aging at 873 K, 923 K, and 973 K for 500 h resulted in an area fraction of the precipitates on the grain boundary of 51%, 79%, and 89%, respectively, and the time to rupture at 873 K under 280 MPa increased with the area fraction. Additionally, the creep elongation was significantly improved by aging at 973 K, whereas that at 873 K and 923 K did not. Because the coherent matrix/M23C6 interface exhibited high crack propagation arrestability, the crack propagation path in the microstructure was the incoherent matrix/M23C6 interface and uncovered grain boundaries. The different creep deformation behaviors between the aging at 923 K or below and 973 K are discussed using the percolation theory of the crack propagation path. It was suggested that the enhanced creep properties due to the aging at 973 K were attributed to a sufficiently high area fraction of the precipitates on the grain boundary, which fragmented the crack propagation path and retarded the intergranular creep fracture.

Topics & Concepts

CreepGrain boundaryMaterials scienceIntergranular fractureMicrostructureIntergranular corrosionFracture mechanicsElongationFracture (geology)MetallurgyDeformation (meteorology)Phase (matter)Composite materialUltimate tensile strengthChemistryOrganic chemistryHigh Temperature Alloys and CreepMicrostructure and mechanical propertiesMicrostructure and Mechanical Properties of Steels
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