利用酸碱刻蚀两步化学法对Ti进行活化处理,经水热电沉积制备Ti/羟基磷灰石涂层(HA),用SEM,XRD,FTIR和EDS对涂层进行分析和表征,用微控电子万能试验机对基体和涂层的界面结合强度进行测试,将涂层在牛血清白蛋白溶液(BSA)中浸泡2 h~3 d后,分析涂层与BSA溶液的FTIR和XSP光谱.结果表明:活化处理后的Ti表面形成了活性TiO2过渡层,活化过渡层使涂层与基体的结合强度显著提高;涂层形貌、元素比例与骨组织纤维相一致.涂层与BSA作用后的FTIR光谱表明,在涂层中引入了BSA酰胺带基团,在BSA溶液中又出现HA中PO43-基团,蛋白质酰胺Ⅰ带、酰胺Ⅱ带和HA中PO43-的红外光谱的位置和谱峰均发生变化,由此推测了Ti/HA涂层与BSA间的作用机制,指出:正是由于Ti/HA涂层与BSA间的相互作用使涂层得以在蛋白质结构中交互有序地排列生长,这是Ti/HA涂层具有生物相容性的基础.
参考文献
[1] | Wojciech Suchanek;Masahiro Yoshimura .[J].Journal of Materials Research,1998,13(01):94. |
[2] | Kuroda D;Ninomi M;Morinaga M et al.[J].Materials Science and Engineering,1998,A243:244. |
[3] | Mandis A;Sader R;Krause D.[J].Biomedical Engineering,2002(19):129. |
[4] | 胡仁,时海燕,林理文,庄燕燕,林昌健.电化学沉积羟基磷灰石过程晶体生长行为[J].物理化学学报,2005(02):197-201. |
[5] | Cigada A;Cabrini M;Pedeferri P .[J].Journal of Materials Science:Materials in Medicine,1992,3:408. |
[6] | Wen H B;Wolke J G C;Liu Q et al.[J].BIOMATERIALS,1997,18:1417. |
[7] | 憨勇;付涛;吕坚 .[J].Journal of Biomedical Materials Research,2001,54:96. |
[8] | Yang YC;Chang E .Influence of residual stress on bonding strength and fracture of plasma-sprayed hydroxyapatite coatings on Ti-6Al-4V substrate.[J].Biomaterials,2001(13):1827-1836. |
[9] | Kurzweg H;Heimann RB;Troczynski T;Wayman ML .Development of plasma-sprayed bioceramic coatings with bond coats based on titania and zirconia.[J].Biomaterials,1998(16):1507-1511. |
[10] | Park E.;Hoelzer DT.;Fischman GS.;Condrate RA. .Interfacial characterization of plasma-spray coated calcium phosphate on Ti-6Al-4V[J].Journal of Materials Science. Materials in Medicine,1998(11):643-649. |
[11] | Zeng H T;Chittur K K;Lacefield W R .[J].Biomaterials,1999,20(04):377. |
[12] | Vasin S L;Rosanova I B;Revastianov V et al.[J].Materials Research,1998,39(03):491. |
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