中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2013年
11期
3147-3153
,共7页
彭小敏%夏长清%吴安如%董丽君%李东锋%陶友瑞
彭小敏%夏長清%吳安如%董麗君%李東鋒%陶友瑞
팽소민%하장청%오안여%동려군%리동봉%도우서
NiCrAlY涂层%真空热处理%显微组织%性能
NiCrAlY塗層%真空熱處理%顯微組織%性能
NiCrAlY도층%진공열처리%현미조직%성능
NiCrAlY coating%vacuum heat treatment%microstructure%property
采用电弧离子镀(AIP)技术在TC4(Ti-6Al-4V)钛合金表面制备NiCrAlY涂层。利用扫描电镜(SEM)、透射电镜(TEM)、能谱(EDS)分析、X射线衍射分析(XRD)及维氏硬度测量试验研究真空热处理对NiCrAlY涂层组织与性能的影响。结果表明:真空热处理后涂层沉积残余应力得到有效释放,涂层平均晶粒尺寸从沉积态的200 nm增加至950℃真空热处理后的500 nm;真空热处理过程中发生β→γ′→γ相转变,γ′分布于β晶界或γ晶粒内;γ晶粒内析出的γ′相呈细小弥散分布,与基体γ保持共格起到强化作用;经700~750℃真空热处理后,涂层可获得最佳的析出强化效果。
採用電弧離子鍍(AIP)技術在TC4(Ti-6Al-4V)鈦閤金錶麵製備NiCrAlY塗層。利用掃描電鏡(SEM)、透射電鏡(TEM)、能譜(EDS)分析、X射線衍射分析(XRD)及維氏硬度測量試驗研究真空熱處理對NiCrAlY塗層組織與性能的影響。結果錶明:真空熱處理後塗層沉積殘餘應力得到有效釋放,塗層平均晶粒呎吋從沉積態的200 nm增加至950℃真空熱處理後的500 nm;真空熱處理過程中髮生β→γ′→γ相轉變,γ′分佈于β晶界或γ晶粒內;γ晶粒內析齣的γ′相呈細小瀰散分佈,與基體γ保持共格起到彊化作用;經700~750℃真空熱處理後,塗層可穫得最佳的析齣彊化效果。
채용전호리자도(AIP)기술재TC4(Ti-6Al-4V)태합금표면제비NiCrAlY도층。이용소묘전경(SEM)、투사전경(TEM)、능보(EDS)분석、X사선연사분석(XRD)급유씨경도측량시험연구진공열처리대NiCrAlY도층조직여성능적영향。결과표명:진공열처리후도층침적잔여응력득도유효석방,도층평균정립척촌종침적태적200 nm증가지950℃진공열처리후적500 nm;진공열처리과정중발생β→γ′→γ상전변,γ′분포우β정계혹γ정립내;γ정립내석출적γ′상정세소미산분포,여기체γ보지공격기도강화작용;경700~750℃진공열처리후,도층가획득최가적석출강화효과。
NiCrAlY coating was deposited on TC4 titanium alloy by arc ion plating (AIP). The effect of vacuum heat treatment on the microstructure and properties of NiCrAlY coating were studied by SEM, TEM, EDS, XRD and Vickers hardness test. The results show that, during the vacuum heat treatment, the deposition residual stress of the coating can be released effectually. The average grain size of the coating increases from 200 nm for the as-deposited state to 500 nm for the vacuum heat-treated state at 950 ℃. β→γ′→γ phase transformation happens during the vacuum heat treatment. γ′phase distributes along the β grain boundaries or in the γ grains. The fine and dispersing γ′ phase in the γ grains is coherent with the substrate, which is able to strengthen the coating substrate. The best precipitation hardening effect for NiCrAlY coating can be obtained after vacuum heat treatment at 700-750℃.
