摘要
Fe Co Cr Ni Mn high-entropy alloys were produced by mechanical alloying(MA) and vacuum hot pressing sintering(VHPS). Results showed that the nano-crystalline alloy powders were obtained by MA and the corresponding phase structures were composed of FCC matrices and low amounts of BCC and amorphous phases. After VHPS, the BCC phases almost disappeared, simultaneously with the precipitation of σ phases and M23C6 carbides. An increase of sintering temperature resulted in grain growth of the precipitated phases. As the sintering temperature was increased from 700 to 1000℃, the strain-to-failure of the alloys rose from 4.4% to 38.2%, whereas the yield strength decreased from 1682 to 774 MPa. The bulk FeCoCrNiMn HEAs, consolidated by VHPS at 800℃ and 900℃ for 1 h, showed relatively good combination of strength and ductility.
采用机械合金化和热压烧结制备FeCoCrNiMn高熵合金。结果表明,采用机械合金化得到纳米晶合金粉末,粉末相结构由面心立方结构(FCC)相以及少量的体心立方结构(BCC)相和非晶相组成。热压烧结后,合金中BCC相基本消失,同时伴随着σ相和M23C6相的析出;烧结温度的升高导致析出相颗粒明显长大。随着热压烧结温度从700℃升高到1000℃,合金塑性应变从4.4%增加到38.2%,而屈服强度从1682 MPa下降到774 MPa。经800℃和900℃烧结1 h的FeCoCrNiMn高熵合金具有较好的综合力学性能。
基金
Project(2014H6005) supported by the Major Industry-Academy Cooperation Program of Fujian Province,China
Project(LY17E050003) supported by the Natural Science Foundation of Zhejiang Province,China
Project(2016PY015) supported by the Cultivation Foundation of Taizhou University,China
