稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2007年
3期
463-466
,共4页
电击穿%钨铜合金%纳米材料%电子发射
電擊穿%鎢銅閤金%納米材料%電子髮射
전격천%오동합금%납미재료%전자발사
electrical breakdown%W-Cu alloy%nanostructured material%electron emission
在真空电炉中利用机械合金化和热压烧结法制备出纳米晶块体钨铜合金.在进行电击穿实验时,电弧在其表面出现了分散现象,明显不同于相应传统材料电弧集中在局部的现象.这是由于纳米材料在电击穿时由于较低的逸出功、大量晶界的存在和纳米尺度的粒子能窄化钨铜界面的势垒而诱发大量电子发射所致.
在真空電爐中利用機械閤金化和熱壓燒結法製備齣納米晶塊體鎢銅閤金.在進行電擊穿實驗時,電弧在其錶麵齣現瞭分散現象,明顯不同于相應傳統材料電弧集中在跼部的現象.這是由于納米材料在電擊穿時由于較低的逸齣功、大量晶界的存在和納米呎度的粒子能窄化鎢銅界麵的勢壘而誘髮大量電子髮射所緻.
재진공전로중이용궤계합금화화열압소결법제비출납미정괴체오동합금.재진행전격천실험시,전호재기표면출현료분산현상,명현불동우상응전통재료전호집중재국부적현상.저시유우납미재료재전격천시유우교저적일출공、대량정계적존재화납미척도적입자능착화오동계면적세루이유발대량전자발사소치.
Nanostructured bulk of W-Cu alloy was prepared by mechanical alloying and hot pressed sintering. The nanostructured W-Cu material shows the characteristic of the spreading electric arcs,and the commercially used W-Cu alloy exhibits the characteristic of the localized arcs during the electric breakdown. The effect of nanostructured W-Cu alloy is caused by a larger number of electrons emitted during the discharge with a low electron work function,and highly conductive grain boundaries and many nano-metre-scale grains could narrow the potential barrier at the tungsten-copper interface.
