Abstract

Multi-phase Mo–Si–B alloys were intensively researched during the last decade as they are promising candidates for high temperature applications beyond the capabilities of single-crystalline Ni-based superalloys. Small additions of Zr improve the mechanical properties of the Mo solid solution phase (Moss), especially it lowers the brittle-to-ductile transition temperature and improves the fracture toughness. This work shows how mechanical alloying (MA) as the crucial step of powder metallurgical (PM) production will significantly influence the materials mechanical properties of Mo–9Si–8B–1Zr alloys in a wide temperature range from room temperature up to 1400 °C. The formation, continuity and length scale of the individual phases during PM processing is evaluated in detail using experimental methods and numerical studies. Furthermore, the mechanisms of deformation and fracture of the bulk materials are discussed with respect to the microstructural features. For comparison of the mechanical properties achieved by PM processing we produced the similar alloy composition by a conventional solidification process and characterized it by the same evaluation methods.

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