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Effect of the fine Cr-Fe alloy powder on the microstructure and properties of powder metallurgy steels |
MOU Nan1, LEI Long-lin2, XU Ran1, TANG Lin2, LUO Feng-hua1 |
1. State Key Laboratory for Powder Metallurgy, Central South University, Changsha 410083, China 2. Ningbo FOTILE Kitchen Ware Co. Ltd., Ningbo 315336, China |
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Abstract The Fe-Cr-Mo PM steel was obtained from the mixed FeCr55C600 high carbon ferrochrome powders with a mean particle size of 4.65 μm and the Fe-0.5Mo water atomized pre-alloyed powders, sintered at 1 200℃ by sinter hardening process. The results indicate that the hardness and strength of the sintered alloys increase as the content of Cr-Fe alloy powder increasing. The microstructure of the sintered specimens is mainly composed of bainite. When adding ultrafine Cr-Fe alloy powder, leading to the Cr mass content of 1.7%, Fe-Cr-Mo PM steels have optimal properties, with tensile strength of 1 210 MPa and hardness of 30 HRC. Main microstructure of the alloy is a mixture of fine lower bainite and martensite, and mass ratio of the alloy element of Cr/C is about 1.54.
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Received: 15 September 2014
Published: 29 April 2015
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