粉末冶金材料科学与工程
粉末冶金材料科學與工程
분말야금재료과학여공정
POWDER METALLURGY MATERIALS SCIENCE AND ENGINEERING
2013年
1期
33-38
,共6页
孙加宝%熊翔%党胜云%刘如铁
孫加寶%熊翔%黨勝雲%劉如鐵
손가보%웅상%당성운%류여철
粉末冶金%渗铜钢%边界润滑%摩擦磨损性能
粉末冶金%滲銅鋼%邊界潤滑%摩抆磨損性能
분말야금%삼동강%변계윤활%마찰마손성능
powder metallurgy%copper-infiltrated steel%boundary lubrication%friction and wear performance
通过压制、预烧和熔渗,制备1种液压零件用粉末冶金渗铜钢.用UMT?3型摩擦磨损实验机评价该材料在边界润滑条件下的耐磨性,研究基体密度对渗铜钢摩擦磨损性能的影响,并与目前常用的耐磨合金进行摩擦磨损性能对比.结果表明:在边界润滑条件下,渗铜量相同,基体材料密度分别为6.40、6.60、6.80 g/cm3的粉末冶金渗铜钢摩擦副的摩擦因数相差不大,4 h的质量磨损量分别为1.70、1.50和3.10 mg;而传统耐磨合金中硬度较低的HMn58?2铜合金磨损量为24.10 mg,磨损较快.
通過壓製、預燒和鎔滲,製備1種液壓零件用粉末冶金滲銅鋼.用UMT?3型摩抆磨損實驗機評價該材料在邊界潤滑條件下的耐磨性,研究基體密度對滲銅鋼摩抆磨損性能的影響,併與目前常用的耐磨閤金進行摩抆磨損性能對比.結果錶明:在邊界潤滑條件下,滲銅量相同,基體材料密度分彆為6.40、6.60、6.80 g/cm3的粉末冶金滲銅鋼摩抆副的摩抆因數相差不大,4 h的質量磨損量分彆為1.70、1.50和3.10 mg;而傳統耐磨閤金中硬度較低的HMn58?2銅閤金磨損量為24.10 mg,磨損較快.
통과압제、예소화용삼,제비1충액압령건용분말야금삼동강.용UMT?3형마찰마손실험궤평개해재료재변계윤활조건하적내마성,연구기체밀도대삼동강마찰마손성능적영향,병여목전상용적내마합금진행마찰마손성능대비.결과표명:재변계윤활조건하,삼동량상동,기체재료밀도분별위6.40、6.60、6.80 g/cm3적분말야금삼동강마찰부적마찰인수상차불대,4 h적질량마손량분별위1.70、1.50화3.10 mg;이전통내마합금중경도교저적HMn58?2동합금마손량위24.10 mg,마손교쾌.
A kind of hydraulic copper-infiltrated powder metallurgy (PM) steel was obtained through the process of pressing, sintering and infiltrating. The UMT-3 tribometer was used to evaluate the friction and wear performance under boundary lubrication conditions. The performances of traditional wear-resistant alloys were also studied as a comparison. The results show that, the hydraulic copper infiltrated PM steel materials with different matrix densities of 6.40, 6.60 and 6.80 g/cm3 infiltrated respectively with the same amount of copper have almost the same friction coefficients,the wear mass loss are 1.70, 1.50 and 3.10 mg respectively after 4 h wear, while, the traditional wear-resistant copper alloy HMn58-2 with lower hardness has the wear mass loss of 24.10 mg.
