制备工艺对Ag/Co3O4电接触材料物理性能的影响

杨芳儿; 秦海波; 张继; 穆成法; 沈涛; 郑晓华

文章摘要

制备工艺对Ag/Co3O4电接触材料物理性能的影响

Effects of preparation processes on the physical properties of Ag/Co3O4 electrical contact material

投稿时间：2021-03-16

DOI：

中文关键词: Ag/Co3O4 电接触材料复压复烧物理性能显微组织

英文关键词: Ag/Co3O4 electrical contact materials re-pressing and re-sintering physical properties metallographic microstructure

基金项目:浙江省重点研发计划(No. 2017C01051)

作者	单位	E-mail
杨芳儿	浙江工业大学材料科学与工程学院，杭州 310014	yfe1230@163.com
秦海波	浙江工业大学材料科学与工程学院，杭州 310014
张继	浙江大学材料科学与工程学院，杭州 310058
穆成法	温州宏丰电工合金股份有限公司，浙江温州 325603
沈涛	浙江大学材料科学与工程学院，杭州 310058
郑晓华	浙江工业大学材料科学与工程学院，杭州 310014	zhengxh@zjut.edu.cn

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中文摘要:

以水热法合成的Co3O4空心球粉体和化学银粉为原料，运用粉末冶金技术调控不同成型压力、烧结制度等工艺参数制备Ag/Co3O4电接触材料；采用扫描电镜(SEM)、X射线衍射(XRD)、金相显微镜等对其形貌、物相及金相组织进行了表征；对比分析压制烧结条件对电阻率、硬度和密度(致密度)等物理性能的影响。结果表明，100℃水热反应13 h合成的Co3O4为粒径2.2 mm的空心微球粉体。1000 MPa、850℃保温6 h初压初烧后，进一步经复压复烧(1000 MPa、800℃保温6 h)处理，得到的Ag/Co3O4材料物理性能得到提高，其电阻率低至2.78 mΩ.cm，硬度(HV0.5)高至71.7，密度为9.22 g/cm³(致密度95.6%)，表明复压复烧工艺有助于实现Co3O4颗粒增强相在银基体上的均匀弥散分布，降低Ag/Co3O4材料的孔隙率，提高其致密度，改善其综合物理性能。

英文摘要:

With Co3O4 hollow sphere powder prepared by a hydrothermal method and silver powder synthesized by a chemical method as the raw materials, Ag/Co3O4 electrical contact materials were prepared by powder metallurgy technology through controlling various molding pressures and sintering processes. Their morphology, phase structure and metallographic microstructure of Co3O4 powders and Ag/Co3O4 electrical contact materials were characterized by SEM, XRD and metallographic microscopy. Effects of pressing and sintering conditions on physical properties such as resistivity, hardness and density (densification) were compared and analyzed. The results showed that hollow micro spherical Co3O4 powder synthesized by hydrothermal reaction at 100℃ for 13 h had 2.2 mm of particle size. The physical properties of Ag/Co3O4 electrical contact materials were improved, with the lowest resistivity of 2.78 mΩ.cm, the highest hardness (HV0.5) of 71.7, and density of 9.22 g/cm³ (relative density 95.6%), after the initial pressing-sintering process (1000 MPa and 850℃ for 6 h) and following repressing-resintering process (1000 MPa and 800℃ for 6 h). The results showed that the repressing-resintering process was helpful to make Co3O4 phase homogeneously dispersed in the silver matrix, thereby reducing the porosity of the Ag/Co3O4 contact materials, increasing its density, and then improving its comprehensive physical properties.

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