A Co–Cr–Ni–W–C Alloy Processed by Multiple Rolling

被引:0
作者
L. Y. Sheng
机构
[1] Peking University,Shenzhen Institute
来源
Strength of Materials | 2020年 / 52卷
关键词
Co–Cr–Ni–W–C alloy; cold rolling; deformation; microstructure; mechanical properties;
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摘要
A Co–Cr–Ni–W–C alloy was manufactured and cold-rolled to investigate the effect of the latter. Its microstructure, precipitates, and mechanical properties are presented. An M6C carbide, Co3W intermetallic compound and α-Co matrix were selected as the main phase constituents. During cold rolling, the alloy was deformed mainly by dislocation slipping at a small reduction, but some microtwins were formed in the matrix. When the reduction increased up to 20%, grains were elongated, and twinning became the main deformation route. When the reduction reached 40%, the alloy exhibited a typical microstructure with greatly elongated grains. The intersection of twinning lamellae lead to many cell-like substructures. The appropriate reduction of the alloy was of 15–20%, while the critical reduction made up 30%. If deformation exceeds the critical rolling reduction, cracks would originate in the alloy. With an increase in the rolling reduction, the alloy ductility decreases but the strength grows.
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页码:103 / 109
页数:6
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共 98 条
[1]  
Jiang WH(1999)Effects of heat treatment on microstructures and mechanical properties of a directionally solidified cobalt-base superalloy Mater. Sci. Eng. A 271 101-108
[2]  
Guan HR(2019)Multicomponent γ′-strengthened Co-based superalloys with increased solvus temperatures and reduced mass densities Acta Mater. 147 284-295
[3]  
Hu ZQ(2011)Microstructure characteristics and compressive properties of NiAl-based multiphase alloy during heat treatments Mater. Sci. Eng. A 528 8321-8331
[4]  
Lass EA(2018)The effect of a grain boundary pinning B2 phase on polycrystalline Co-based superalloys with reduced density Metall. Mater. Trans. A 49 4070-4078
[5]  
Sauza DJ(2018)On the diffusive phase transformation mechanism assisted by extended dislocations during creep of a single crystal CoNi-based superalloy Acta Mater. 155 362-371
[6]  
Dunand DC(2018)Improved in vitro and in vivo performance of NiTi alloy by multilayer TiN/Ti coating fabricated by magnetron sputtering Basic Clin. Pharmacol. Toxicol. 123 27-27
[7]  
Seidman DN(2019)Influence of boron additions and heat treatments on the fatigue resistance of CoCrMo alloys Materials 12 1076-2781
[8]  
Sheng LY(2004)Tensile properties and microstructure of Haynes 25 alloy after aging at elevated temperatures for extended times Metall. Mater. Trans. A 35 2767-722
[9]  
Xie Y(1999)Effect of solution treatments on the hcp/fcc isothermal martensitic transformation in Co-27Cr-5Mo-0.05C aged at 800°C Scripta Mater. 40 717-794
[10]  
Xi TF(2001)Modelling the kinetics of strain induced precipitation in Nb microalloyed steels Acta Mater. 49 785-192
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