Microstructural evolution during high-temperature tensile creep at 1,500°C of a MoSiBTiC alloy

Uemura Sojiro
Kamata Shiho Yamamoto
Yoshimi Kyosuke
Tsurekawa Sadahiro

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Publication date

April 2020

DOI

10.1515/htmp-2020-0039

Publisher

Walter de Gruyter GmbH

Journal

High Temperature Materials and Processes

Abstract

Microstructural evolution in the TiC-reinforced Mo–Si–B-based alloy during tensile creep deformation at 1,500°C and 137 MPa was investigated via scanning electron microscope-backscattered electron diffraction (SEM-EBSD) observations. The creep curve of this alloy displayed no clear steady state but was dominated by the tertiary creep regime. The grain size of the Moss phase increased in the primary creep regime. However, the grain size of the Moss phase was found to remarkably decrease to <10 µm with increasing creep strain in the tertiary creep regime. The EBSD observations revealed that the refinement of the Moss ...

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Microstructural evolution during high-temperature tensile creep at 1,500°C of a MoSiBTiC alloy

Abstract

Extracted data

Microstructural evolution during high-temperature tensile creep at 1,500°C of a MoSiBTiC alloy

Abstract

Extracted data

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