稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2011年
11期
1891-1896
,共6页
刘小萍%葛培林%尤凯%王振霞%贺志勇
劉小萍%葛培林%尤凱%王振霞%賀誌勇
류소평%갈배림%우개%왕진하%하지용
TiA1合金%组织%等离子渗铌%耐磨性
TiA1閤金%組織%等離子滲鈮%耐磨性
TiA1합금%조직%등리자삼니%내마성
TiAl alloy%microstructure%plasma Nb alloying%wear resistance
将双层辉光离子渗铌技术应用于TiAl合金从而改善其耐磨性能.对TiAl渗铌合金层组织,室温和600℃高温摩擦学性能进行了研究.结果表明,TiAl经离子渗铌后表面形成厚度约12 μm的铌合金层,渗层组织致密均匀,其组成物主要包括AlNb2、AlNb3、Ti2AlNb 和Nb.铌合金层在600℃的耐磨性明显提高,并且室温耐磨和减摩性能均优于TiAl基材.
將雙層輝光離子滲鈮技術應用于TiAl閤金從而改善其耐磨性能.對TiAl滲鈮閤金層組織,室溫和600℃高溫摩抆學性能進行瞭研究.結果錶明,TiAl經離子滲鈮後錶麵形成厚度約12 μm的鈮閤金層,滲層組織緻密均勻,其組成物主要包括AlNb2、AlNb3、Ti2AlNb 和Nb.鈮閤金層在600℃的耐磨性明顯提高,併且室溫耐磨和減摩性能均優于TiAl基材.
장쌍층휘광리자삼니기술응용우TiAl합금종이개선기내마성능.대TiAl삼니합금층조직,실온화600℃고온마찰학성능진행료연구.결과표명,TiAl경리자삼니후표면형성후도약12 μm적니합금층,삼층조직치밀균균,기조성물주요포괄AlNb2、AlNb3、Ti2AlNb 화Nb.니합금층재600℃적내마성명현제고,병차실온내마화감마성능균우우TiAl기재.
Double glow plasma alloying of niobium was applied on TiAl alloy in order to improve its oxidation and wear resistances.Microstructure as well as tribological properties at ambient temperature and 600 ℃ were studied.The results show that a Nb-alloyed layer,about 12 μm in thickness,is formed on the surface of TiAi alloy after plasma alloying treatment.The alloyed layer consisting ofAlNb2,AlNb3,Ti2AlNb and pure niobium is compact and homogenous.Under dry sliding condition,the wear resistance at 600 ℃ is enhanced greatly for Nb-alloyed TiAl and both anti-friction and wear-resistance at ambient temperature are also better than those of untreated TiAl alloy.