功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2015年
8期
8013-8017
,共5页
TiNb 合金%快速阳极氧化%纳米孔阵列%无氟电解液
TiNb 閤金%快速暘極氧化%納米孔陣列%無氟電解液
TiNb 합금%쾌속양겁양화%납미공진렬%무불전해액
TiNb alloy%rapid anodization%nanoporous array%fluoride-free
以合金 Ti-x Nb(x =30%~70%)为基底,硝酸为电解液,采用超快阳极氧化制备出了复合纳米多孔氧化膜.通过 XRD、SEM 和 TEM 等测试技术对所制备的复合纳米多孔氧化膜进行表征,发现氧化膜的表面孔径为10~30 nm,膜背面的孔径为20~60 nm,且纳米孔的孔间距随着 Nb 含量和电解液浓度的增加而增大.氧化膜的生长速度>30μm/h.氧化薄膜的形成与硝酸的强氧化性活化了金属表面有关.氧化膜贯穿的原因可能是由于覆盖合金表面的纳米多孔氧化物薄膜产生的压应力和极化、浓度及温度梯度所产生的拉应力,两者之间的相互作用造成的氧化膜的自剥离.
以閤金 Ti-x Nb(x =30%~70%)為基底,硝痠為電解液,採用超快暘極氧化製備齣瞭複閤納米多孔氧化膜.通過 XRD、SEM 和 TEM 等測試技術對所製備的複閤納米多孔氧化膜進行錶徵,髮現氧化膜的錶麵孔徑為10~30 nm,膜揹麵的孔徑為20~60 nm,且納米孔的孔間距隨著 Nb 含量和電解液濃度的增加而增大.氧化膜的生長速度>30μm/h.氧化薄膜的形成與硝痠的彊氧化性活化瞭金屬錶麵有關.氧化膜貫穿的原因可能是由于覆蓋閤金錶麵的納米多孔氧化物薄膜產生的壓應力和極化、濃度及溫度梯度所產生的拉應力,兩者之間的相互作用造成的氧化膜的自剝離.
이합금 Ti-x Nb(x =30%~70%)위기저,초산위전해액,채용초쾌양겁양화제비출료복합납미다공양화막.통과 XRD、SEM 화 TEM 등측시기술대소제비적복합납미다공양화막진행표정,발현양화막적표면공경위10~30 nm,막배면적공경위20~60 nm,차납미공적공간거수착 Nb 함량화전해액농도적증가이증대.양화막적생장속도>30μm/h.양화박막적형성여초산적강양화성활화료금속표면유관.양화막관천적원인가능시유우복개합금표면적납미다공양화물박막산생적압응력화겁화、농도급온도제도소산생적랍응력,량자지간적상호작용조성적양화막적자박리.
Self-organized,through-hole,and ordered nano-porous array layers were fabricated by anodizing Ti-x Nb(x =30%-70%)alloys in a nitric acid electrolyte rapidly and directly.The nanoporous layers are character-ized by XRD,SEM and TEM.It was found that TiNb oxide nanoporous layers consist of straight and uniform pores of 10-30 nm in diameter,and the back side has uniform pores of 20-60 nm.The pore spacing increases with increasing Nb and nitric acid concentration.The growth rate of the oxidation layers is more than 30 μm/h. The formation of the layers is believed to be related to the strong oxidizability of nitric acid.And the penetration of the oxidation layers might be attributed to the interactions between the compressive stress by the layers and the tensile stress generated by the polarization,concentration and temperature gradient.