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作 者:朱施利[1,2] 曹华珍[1] 胡文豪[2] 金耀辉[2] 郑国渠[1]
机构地区:[1]浙江工业大学,浙江杭州310032 [2]杭州钢铁集团公司,浙江杭州310022
出 处:《稀有金属材料与工程》2014年第8期1983-1986,共4页Rare Metal Materials and Engineering
基 金:浙江省重中之重学科"新材料及加工工程"开放基金(20110951)
摘 要:冶炼和铸造了不同稀土镁含量的W6Mo5Cr4V2高速钢,并对铸态钢材进行退火及锻打,检测了不同状态下的显微组织,并用Gleeble模拟了钢材的高温性能。结果表明:稀土镁能使铸态W6Mo5Cr4V2钢中网状碳化物组织断裂;随着钢中稀土镁含量的增加和锻打压下量的增大,碳化物粒化度提升;热模拟表明W6Mo5Cr4V2钢的第I高温脆性区为熔点到1180℃,第Ⅱ高温脆性区为950~800℃;综合高温塑性区极窄,为1170~1190℃。High speed steels W6Mo5Cr4V2 with different contents of rare earth magnesium were smelt and moulded and then the steels were annealed and forged. Microstructures of the samples were observed and the properties at high temperature were investigated by the thermal simulator Gleeble. The results show that reticulation carbide structures are ruptured by the addition of rare earth magnesium to the moulded steel W6Mo5Cr4V2. With the increasing of rare earth magnesium contents and forging reductions, the degree of granulation for carbide is improved. Thermal simulation results indicate that the first high temperature brittleness area lies in the range from melting point down to 1180 ℃, and the second high temperature brittleness area is between 950 ℃ and 800 ℃; however, the comprehensive high temperature ductility area is very narrow, which is from 1170 ℃ to 1190 ℃.
关 键 词:稀土镁 W6MO5CR4V2钢 共晶碳化物 粒化
分 类 号:TG142.45[一般工业技术—材料科学与工程]
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