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A hybrid microstructure design strategy achieving W-ZrO2(Y) alloy with high compressive strength and critical failure strain

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Abstract In this article, we report a hybrid microstructure design strategy for preparing tungsten alloy reinforced by Y 2 O 3 -stabilized cubic ZrO 2 (W-ZrO 2 (Y)) with high… Click to show full abstract

Abstract In this article, we report a hybrid microstructure design strategy for preparing tungsten alloy reinforced by Y 2 O 3 -stabilized cubic ZrO 2 (W-ZrO 2 (Y)) with high compressive strength and critical failure strain. The processing route involves a molecular-level liquid–liquid doping technique combined with vertical sintering and hot rotary swaging that causes the uniform distribution of cubic ZrO 2 (Y) particles in the grain interior. The cubic ZrO 2 (Y) particles in tungsten matrix are prepared by liquid–liquid incorporation of Zr(NO 3 ) 4 and Y(NO 3 ) 3 aqueous solutions. The alloy powders with 1.5 wt% ZrO 2 (Y) present nano/microbimodal distribution. The cubic ZrO 2 (Y) particles are also uniformly distributed in the grain interior of refined tungsten grains, which consequently improves the relative density, Vickers hardness, compressive strength, and critical failure strain of alloy. The compressive strength and critical failure strain of the swaged W-1.5 wt% ZrO 2 (Y) alloy are 1680 MPa and 0.24, which are approximately 24.9% and 33.3% higher compared with those of pure tungsten, respectively. The strengthening mechanism of W-1.5 wt% ZrO 2 (Y) alloy is also discussed.

Keywords: strength critical; failure strain; critical failure; zro; compressive strength

Journal Title: Journal of Alloys and Compounds
Year Published: 2017

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