Akio Kasama scite author profile

High temperature strength and room temperature fracture toughness of Nb-based alloy system were investigated to explore a candidate material for gas turbine use at 1773 K as a function of chemical compositions. 0.2% proof stress at 1773 K and the fracture toughness were studied for the solid-solution hardening Nb-Mo-W alloys and the Nb 5 Si 3 -reinforcing Nb-Si-Mo-W-Hf alloys, and were found that the 0.2% proof stress linearly increases with increasing (Mo+1.5W) content and also increases with volume fraction of Nb 5 Si 3 , while the fracture toughness decreases with (Mo+1.5W) content in solid-solution. The critical content for a ductile-to-brittle transition to occur is at (Mo+1.5W) content of 33.5 mol% together with molybdenum content of 15 mol%. Nb-16Si-5Mo-15W-5Hf alloy with a microstructure consisting of 50 vol% solid-solution and 50 vol% Nb 5 Si 3 , obtained by optimizing the alloy chemistry without a significant loss of high temperature capability and ductility, and by modifying with 5Hf-5C addition, was found to demonstrate an unprecedentedly excellent creep resistance and also a creep rupture strength exceeding the target strength of 150 MPa and above at 1773 K for 100 h.

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Effect of carbon on the tensile properties of Nb–Mo–W alloys at 1773 K

Kim¹,

Tanaka²,

Kasama³

et al. 2002

Journal of Alloys and Compounds

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Surface Tension of Liquid Iron and Iron-Oxygen Alloys

Kasama¹,

McLean²,

Miller³

et al. 1983

Canadian Metallurgical Quarterly

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Akio Kasama

Microstructure and room temperature deformation of Nbss/Nb5Si3 in situ composites alloyed with Mo

Microstructure and room temperature fracture toughness of Nbss/Nb5Si3 in situ composites

Effect of Alloy Chemistry on the High Temperature Strengths and Room Temperature Fracture Toughness of Advanced Nb-Based Alloys

Effect of carbon on the tensile properties of Nb–Mo–W alloys at 1773 K

Surface Tension of Liquid Iron and Iron-Oxygen Alloys

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