Achieving an unprecedented strength-ductility balance of molybdenum alloy by homogeneously distributing yttrium-cerium oxide

•An unprecedented strength-ductility balance for Mo alloy is obtained by adding rare earth Y/Ce by liquid-liquid doping.•Strength-elongation product of the new Mo alloy reaches 2.4 times that of pure Mo.•The fine rare earth oxides introduce Orowan strengthening and fine grain strengthening of Mo-all...

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Bibliographic Details
Published in:Journal of alloys and compounds 2022-03, Vol.897, p.163110, Article 163110
Main Authors: Xu, Liujie, Li, Na, Song, Wanli, Sun, Tielong, Zhou, Yucheng, Wei, Shizhong, Shen, Huahai
Format: Article
Language:English
Subjects:
Alloys
Cerium oxides
Ductility
Elongation
Hydrothermal synthesis
Mechanical properties
Metal plates
Microstructure
Molybdenum
Molybdenum alloy
Molybdenum base alloys
Nanoscale Y2O3/CeO2
Powder metallurgy
Rare earth oxides
Strength-ductility balance
Strengthening
Tensile strength
Yttrium oxide
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Summary:•An unprecedented strength-ductility balance for Mo alloy is obtained by adding rare earth Y/Ce by liquid-liquid doping.•Strength-elongation product of the new Mo alloy reaches 2.4 times that of pure Mo.•The fine rare earth oxides introduce Orowan strengthening and fine grain strengthening of Mo-alloy, changing fracture mode. [Display omitted] Rare earth (Y/Ce) were homogeneously distributed in molybdenum alloys by liquid-liquid doping and powder metallurgy method, and the molybdenum alloys plates were obtained after rolling. The results show the rare earth form nanoscale Y2O3 and CeO2 particles which were concomitant in molybdenum matrix. The rare earth oxides particles significantly refine microstructure and improve mechanical properties of the rolled molybdenum plate. The adding of 0.8%Y2O3 and 0.12%CeO2 made the micro fringe spacing in microstructure of rolled molybdenum alloy reduce 52.43%. The newly developed molybdenum alloys have an unprecedented strength-ductility balance compared with previous other molybdenum alloys. And high tensile strength and elongation were obtained simultaneously. The tensile strength of the rolled Mo-0.8%Y2O3-0.12%CeO2 alloy plate reaches 917 MPa with a 13.9% elongation, increased by 21.9% and 55.5% over a pure molybdenum plate, respectively. The strength-elongation product of the new molybdenum alloy annealed at 1200 ℃ could reach 2.4 times that of pure molybdenum. The addition of the nanoscale rare earth oxides to the Mo-alloy introduces Orowan strengthening and fine grain strengthening which changes fracture mode, resulting in excellent strength-ductility balance.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2021.163110