Processing and characterization of a W?Y material for fusion power reactors
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- 作者:Lyubomira Velevaa ; ; lyubomira.veleva@psi.ch ; Robin Schä ; ublina ; Tomasz Plocinskib ; Mario Walterc ; Nadine Baluca
- 关键词:Tungsten ; Yttrium ; Mechanical alloying ; Hot isostatic pressing ; Microstructure ; Mechanical properties
- 刊名:Fusion Engineering and Design
- 出版年:2011
- 出版时间:October 2011
- 年:2011
- 卷:86
- 期:9-11
- 页码:2450-2453
- 全文大小:316 K
文摘
A W?Y material has been produced by powder metallurgy techniques including mechanical alloying of W and Y elemental powders in an argon atmosphere, followed by hot isostatic pressing of the milled powder at 1320 ¡ãC under a pressure of 200 MPa for 2 h. It was found that the mechanical alloying time should not exceed 40 h in order to achieve a homogeneous distribution of small powder particles and to limit air contamination and carbon/WC contamination by the jar and ball materials. The density of the ingots was found to be about 97 % the theoretical one. It was observed that the microstructure of the compacted material is composed of grains having a bimodal size distribution, with mean sizes around 50 and 150 nm. In addition, the material contains an inhomogeneous distribution of oxide particles with a mean size ranging from 2 to 20 nm. In situ TEM chemical analyses revealed that the entire content of yttrium reacted with oxygen to form nanometric oxides whose composition corresponds to Y2O3. Charpy impact tests revealed that the material is brittle at the high temperature of about 1000 ¡ãC. Tensile tests confirmed that the material is brittle at 1000 ¡ãC but ductile at 1300 ¡ãC, indicating that the ductile-to-brittle transition temperature should lie between 1100 and 1200 ¡ãC.