表面技术
錶麵技術
표면기술
SURFACE TECHNOLOGY
2010年
1期
26-29
,共4页
王宝云%李争显%严鹏%王彦峰%姬寿长
王寶雲%李爭顯%嚴鵬%王彥峰%姬壽長
왕보운%리쟁현%엄붕%왕언봉%희수장
钛合金%抗氧化%磁控溅射%MCrAlY%涂层
鈦閤金%抗氧化%磁控濺射%MCrAlY%塗層
태합금%항양화%자공천사%MCrAlY%도층
Titanium alloy%Inoxidizability%Magnetron sputtering%MCrAlY%Coating
为了提高钛合金的高温抗氧化能力,采用非平衡磁控溅射技术在Ti6Al4V钛合金的表面沉积了NiCoCrAlY涂层,通过SEM,EDS和XRD分析了涂层氧化前后的物相组成和组织形貌.结果表明:长时间沉积后,受基材原始表面状态和涂层择优生长作用的影响,涂层表面有大量微米级的细小颗粒和少量直径约10 μm的圆丘形突起;NiCoCrAlY涂层成分与靶材相近.NiCoCrAlY涂层明显提高了钛合金的抗氧化性能,使其氧化增重速率大大降低.经高温氧化后,涂层与基底的界面处Ti,Ni等元素发生互扩散形成过渡层,随氧化时间延长,过渡层逐渐增厚;并且受高温作用,涂层表面化合物相晶态特征有增强的趋势.
為瞭提高鈦閤金的高溫抗氧化能力,採用非平衡磁控濺射技術在Ti6Al4V鈦閤金的錶麵沉積瞭NiCoCrAlY塗層,通過SEM,EDS和XRD分析瞭塗層氧化前後的物相組成和組織形貌.結果錶明:長時間沉積後,受基材原始錶麵狀態和塗層擇優生長作用的影響,塗層錶麵有大量微米級的細小顆粒和少量直徑約10 μm的圓丘形突起;NiCoCrAlY塗層成分與靶材相近.NiCoCrAlY塗層明顯提高瞭鈦閤金的抗氧化性能,使其氧化增重速率大大降低.經高溫氧化後,塗層與基底的界麵處Ti,Ni等元素髮生互擴散形成過渡層,隨氧化時間延長,過渡層逐漸增厚;併且受高溫作用,塗層錶麵化閤物相晶態特徵有增彊的趨勢.
위료제고태합금적고온항양화능력,채용비평형자공천사기술재Ti6Al4V태합금적표면침적료NiCoCrAlY도층,통과SEM,EDS화XRD분석료도층양화전후적물상조성화조직형모.결과표명:장시간침적후,수기재원시표면상태화도층택우생장작용적영향,도층표면유대량미미급적세소과립화소량직경약10 μm적원구형돌기;NiCoCrAlY도층성분여파재상근.NiCoCrAlY도층명현제고료태합금적항양화성능,사기양화증중속솔대대강저.경고온양화후,도층여기저적계면처Ti,Ni등원소발생호확산형성과도층,수양화시간연장,과도층축점증후;병차수고온작용,도층표면화합물상정태특정유증강적추세.
In order to enhance the titanium alloy's inoxidizability, a NiCoCrAlY coating was synthesized on the Ti6Al4V alloy surface using unbalanced magnetron sputtering technology. The microstructure and phase composition of coating before and after the oxidation were analyzed by SEM, EDS and XRD. The results show that there are a large number of small micron-size particles and a small amount of a diameter of about 10 μm of the dome-shaped protrusions on coating surface which affected by substrates' surface state and the preferential deposition of coatings. The composition of coating is close to target composition. The oxidation experiments show that the NiCoCrAlY coating can improve the Ti alloy's oxidation resistance obviously, and the rate of coating weight gain decreased greatly. After high temperature oxidation, a transition layer is formed through the mutual diffusion of Ti, Ni and other elements in the interface and grow, thicker and thicker along with the oxidation time; In the surface the compounds phase's crystalline character is enhanced by the function of high temperature.
