Microstructure and damping properties of MnCuNiFeCe alloy 被引量：6

Microstructure and damping properties of MnCuNiFeCe alloy

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摘要 Mn-Cu alloys could exhibit high damping ability and excellent mechanical properties after proper heat treatment. In order to reduce the influence of impurity elements on damping capacity of Mn-Cu alloys, rare ele- ment cerium （Ce） was added into MnCuNiFe alloys. It is indicated that the contents of C, S and Si which have adverse effects on the damping capacity decrease and the grains are refined with the Ce content increasing. The microstructure of the MnCuNiFeCe alloy was investigated by X-ray diffraction （XRD）, scanning electron microscope （SEM） and transmission electron microscopy （TEM）. The damping ability （tane） of the alloy was characterized by dynamical mechanical analyzer （DMA）. It is found that the damping ability （tane） retains a very high level which is all above 0.05 from the temperature of -50 to 75 ℃ with the addition of Ce element. It is expected that the Ce alloying MnCuNiFe alloy with refined grains could find wide applications in the field of industry. Mn-Cu alloys could exhibit high damping ability and excellent mechanical properties after proper heat treatment. In order to reduce the influence of impurity elements on damping capacity of Mn-Cu alloys, rare ele- ment cerium （Ce） was added into MnCuNiFe alloys. It is indicated that the contents of C, S and Si which have adverse effects on the damping capacity decrease and the grains are refined with the Ce content increasing. The microstructure of the MnCuNiFeCe alloy was investigated by X-ray diffraction （XRD）, scanning electron microscope （SEM） and transmission electron microscopy （TEM）. The damping ability （tane） of the alloy was characterized by dynamical mechanical analyzer （DMA）. It is found that the damping ability （tane） retains a very high level which is all above 0.05 from the temperature of -50 to 75 ℃ with the addition of Ce element. It is expected that the Ce alloying MnCuNiFe alloy with refined grains could find wide applications in the field of industry.

作者 Feng-Shuang Lu Bin Wu Jian-Fu Zhang Ping Li Dong-Liang Zhao

机构地区 Functional Materials Research Institute Institute for Advanced Materials and Technology Beijing Key Laboratory of Precision Alloys

出处《Rare Metals》 SCIE EI CAS CSCD 2016年第8期615-619,共5页 稀有金属（英文版）

基金 financially supported by Beijing Natural Science Foundation (No. 2142037)

关键词 Mn-Cu alloy Damping properties CERIUM Mn-Cu alloy Damping properties Cerium

分类号 TG145 [金属学及工艺—金属材料]

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