In the present work investigations have been made to see the role of metal oxides on the performance of the silver metal oxides electrical contact materials. Silver metal oxide materials of three different composition...In the present work investigations have been made to see the role of metal oxides on the performance of the silver metal oxides electrical contact materials. Silver metal oxide materials of three different compositions Ag-10CdO, Ag-7.6SnO2-2.3ln2O3 and Ag-10ZnO were prepared by internal oxidation process under identical processing conditions. These materials were tested for electrical conductivity, hardness, and erosion loss. Performing an accelerated test on the actual contactor assessed the electrical performance, involving erosion loss and temperature rise of the processed materials. The arc-eroded surface was characterized under scanning electron microscope. The study of the eroded surfaces of contacts indicates that the thermal stability of metal oxides depends on nature of silver-metal oxide interface and their mode of erosion. An attempt is made to correlate the surface features of the eroded contacts with the thermal stability of metal oxides.展开更多
采用反应合成技术和传统粉末冶金技术制备银氧化锡 (Ag Sn O2 )电接触材料。利用千瓦 CO2 激光器模仿电弧作用在试样表面产生局部熔化 ,对 Ag Sn O2 块体材料进行抗熔蚀性测试。对 Ag Sn O2 块体材料进行电导率测试和 X射线衍射分析 ,...采用反应合成技术和传统粉末冶金技术制备银氧化锡 (Ag Sn O2 )电接触材料。利用千瓦 CO2 激光器模仿电弧作用在试样表面产生局部熔化 ,对 Ag Sn O2 块体材料进行抗熔蚀性测试。对 Ag Sn O2 块体材料进行电导率测试和 X射线衍射分析 ,对块体材料及冷拉拔的 Ag Sn O2 线材进行显微组织分析 (扫描电镜、透射电镜 )。研究结果表明 ,采用反应合成技术可以在银基体中合成尺寸细小、界面新鲜的 Sn O2 颗粒 ,所制备的 Ag Sn O2 电接触材料中 ,微米级的 Sn O2 颗粒系由纳米级的 Sn O2 颗粒聚集而成 ;反应合成法制备的 Ag Sn O2 电接触材料较传统粉末冶金法制备的 Ag Sn O2 电接触材料具有更高的导电性和抗熔蚀性 ;该方法制备的 Ag Sn O2 电接触材料由于改变了 Ag、Sn O2 的结合状态使材料的加工性能。展开更多
文摘In the present work investigations have been made to see the role of metal oxides on the performance of the silver metal oxides electrical contact materials. Silver metal oxide materials of three different compositions Ag-10CdO, Ag-7.6SnO2-2.3ln2O3 and Ag-10ZnO were prepared by internal oxidation process under identical processing conditions. These materials were tested for electrical conductivity, hardness, and erosion loss. Performing an accelerated test on the actual contactor assessed the electrical performance, involving erosion loss and temperature rise of the processed materials. The arc-eroded surface was characterized under scanning electron microscope. The study of the eroded surfaces of contacts indicates that the thermal stability of metal oxides depends on nature of silver-metal oxide interface and their mode of erosion. An attempt is made to correlate the surface features of the eroded contacts with the thermal stability of metal oxides.
文摘采用反应合成技术和传统粉末冶金技术制备银氧化锡 (Ag Sn O2 )电接触材料。利用千瓦 CO2 激光器模仿电弧作用在试样表面产生局部熔化 ,对 Ag Sn O2 块体材料进行抗熔蚀性测试。对 Ag Sn O2 块体材料进行电导率测试和 X射线衍射分析 ,对块体材料及冷拉拔的 Ag Sn O2 线材进行显微组织分析 (扫描电镜、透射电镜 )。研究结果表明 ,采用反应合成技术可以在银基体中合成尺寸细小、界面新鲜的 Sn O2 颗粒 ,所制备的 Ag Sn O2 电接触材料中 ,微米级的 Sn O2 颗粒系由纳米级的 Sn O2 颗粒聚集而成 ;反应合成法制备的 Ag Sn O2 电接触材料较传统粉末冶金法制备的 Ag Sn O2 电接触材料具有更高的导电性和抗熔蚀性 ;该方法制备的 Ag Sn O2 电接触材料由于改变了 Ag、Sn O2 的结合状态使材料的加工性能。