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Calculation of the Hardness Space Distribution in the As Quenched Condition of a Medium Hardening Tool Steel
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作者 G.Sanchez Sarmiento and J. Vega 1.Departamento de Fisica, Facultad de Ingenieria, Universidad de Buenos Aires, Av. Paseo Colon 850. (1063) Buenos Aires, Argentina 2 . Universidad Catolica de Cordoba and SUDOSJLO SA, Cno. San Carlos Kin 4,5. (5000) Cord 《Journal of Shanghai Jiaotong university(Science)》 EI 2000年第1期351-361,共11页
The calculation of the hardness profile is a powerful tool for the selection of the right steel for a given purpose. Computer programs INC-PHATRAN and INDUCTER-B were formerly developed by the authors for the calculat... The calculation of the hardness profile is a powerful tool for the selection of the right steel for a given purpose. Computer programs INC-PHATRAN and INDUCTER-B were formerly developed by the authors for the calculation of hardness profiles after heat treatment processes of low alloy and carbon steels. The first one simulates quenching as well as through hardening operations, and the second one models electromagnetic induction heat treatments processes. These codes make use of the SAE Standard 3406 in order to obtain the hardness profile, with enhanced regression coefficients recently obtained by the authors. The present work broadens the field of application of this method, allowing to apply it for low hardenability tool steels such as the ASTM O1 Tool Steel. The method used for the calculation of the hardness profile is here summarized, and an example of application is described, which shows good correspondence between the calculated and measured values. 展开更多
关键词 ASM tool Calculation of the Hardness Space Distribution in the As Quenched Condition of a Medium Hardening tool steel AS
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Phase Transformation of a Cold Work Tool Steel during Tempering 被引量:2
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作者 Hong-xiao CHI Dang-shen MA +2 位作者 Hui-xia XU Wang-long ZHU Jian-qing JIANG 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2016年第5期484-488,共5页
The hardness and microstructure evolution of a 8% Cr cold work tool steel during tempering for 40 h were investigated. Transmission electron microscope examinations showed that M_3C carbides precipitated from supersat... The hardness and microstructure evolution of a 8% Cr cold work tool steel during tempering for 40 h were investigated. Transmission electron microscope examinations showed that M_3C carbides precipitated from supersaturated martensite after tempering at 350 ℃. When the tempering temperature was higher than 520 ℃,the M_(23)C_6 carbides precipitated to substitute for M_3C carbides. After ageing at the temperature of 520 ℃ for 40 h,it was observed that very fine and dense secondary Mo_2C precipitates were precipitated. Thus,it can be concluded that the early stage of Mo_2C-carbide precipitation is like to be Gunier-Preston( G-P) zone formed by [Mo-C] segregation group which is responsible for the secondary hardening peak at 520 ℃. Overageing at 700 ℃ resulted in recovery of martensitic microstructure and precipitation of M_(23)C_6 carbides.When ageing at 700 ℃ for more than 20 h,recrystallization occurred,which resulted in a change of the matrix morphology from martensitic plates to equiaxed ferrite. It was noticed that the size of recrystallized grain / subgrain was very fine,which was attributed to the pinning effect of M_(23)C_6 precipitates. 展开更多
关键词 cold work tool steel secondary hardening tempering carbide
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