A New AgMeO Contact Material
来源期刊:JOURNAL OF RARE EARTHS2001年第2期
论文作者:唐红梅 温鸣 王宝珠 王景芹 陆俭国 吕玉申
Abstract: A new silver rare earth oxide contact material, Ag/La2O3(12), was produced by powder metallurgy method. Its performances are as follows: the density is 9.71~9.96 g*cm-3; the hardness (HB) is 760~970 MPa and the resistivity is 2.25~2.38 μΩ*cm. The microstructure of Ag/La2O3(12) was analyzed by SEM and EDS. Rare earth oxide La2O3 shows two shapes, which are uniformly distributed in the form of sphere and abnormality in Ag matrix. La2O3 shows fine spherical shape in the melted area of Ag after laser acting which is used to simulate electric arc. The results are contributed to the less splash erosion of Ag. Compared with the main physical and mechanical properties of Ag/SnO2(12) and Ag/CdO(12), the properties of three contact materials are similar, and hence Ag/La2O3(12) may become a potential contact material to be used as the substitute of Ag/CdO(12).
唐红梅1,温鸣1,王宝珠1,王景芹1,陆俭国1,吕玉申1
(1.Department of Electrical Engineering, Hebei University of Technology,)
Abstract:A new silver rare earth oxide contact material, Ag/La2O3(12), was produced by powder metallurgy method. Its performances are as follows: the density is 9.71~9.96 g*cm-3; the hardness (HB) is 760~970 MPa and the resistivity is 2.25~2.38 μΩ*cm. The microstructure of Ag/La2O3(12) was analyzed by SEM and EDS. Rare earth oxide La2O3 shows two shapes, which are uniformly distributed in the form of sphere and abnormality in Ag matrix. La2O3 shows fine spherical shape in the melted area of Ag after laser acting which is used to simulate electric arc. The results are contributed to the less splash erosion of Ag. Compared with the main physical and mechanical properties of Ag/SnO2(12) and Ag/CdO(12), the properties of three contact materials are similar, and hence Ag/La2O3(12) may become a potential contact material to be used as the substitute of Ag/CdO(12).
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