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Al-Ti基体上纳米网状钙磷陶瓷/多孔Al_2O_3生物复合涂层的原位生长 被引量:4

In-situ growth of nanometric network calcium phosphate/porous Al_2O_3 biocomposite coating on Al-Ti substrate
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摘要 先采用PVD法在医用钛金属表面沉积一层Al膜,得到Al Ti基体材料;而后采用阳极氧化与水热合成复合制备技术在Al Ti基体上成功构造了由纳米网状磷酸盐组成的钙磷生物陶瓷/Al2O3多孔复合生物涂层。利用扫描电镜(SEM)、透射电镜(TEM)、电子能谱(EDAX)、X射线衍射(XRD)表征了阳极氧化前后铝膜和钙磷生物陶瓷涂层的微观形貌、元素构成以及晶相成分。结果表明:在阳极氧化过程中,钙、磷元素嵌入阳极氧化铝(AAO)膜,并经水热处理反应原位生成钙磷陶瓷;钙磷陶瓷晶体从Al2O3孔洞长出并覆盖于多孔氧化膜的表面;最终获得的钙磷生物陶瓷/多孔Al2O3复合涂层具有纳米网状、多孔的结构特征。分析探讨了钙磷生物陶瓷/多孔Al2O3复合涂层的原位生长过程,浓度梯度与电位差分别是Ca、P元素进入AAO膜的主要推动力。 Pure Al thin film was PVD-deposited on medical titanium to form Al-Ti substrate. Al-Ti substrate was then applied to the hybrid technique of anodization and hydrothermal treatment, which finally led to the successful fabrication of nanometric network calcium phosphate/porous Al_2O_3 biocomposite coating on Al-Ti substrate. Scanning electron microscopy(SEM), transmission electron microscopy(TEM), energy-dispersive X-ray analysis(EDAX) and X-ray diffraction(XRD) were employed to study the microstructures and compositions of Al thin film and calcium phosphate/porous Al_2O_3 biocomposite coating. The results indicate that the Ca and P ions are incorporated into the anodized alumium oxide(AAO) during the anodization process, and the incorporated Ca and P are reacted to be calcium phosphate after hydrothermal treatment. The calcium phosphate grows from the holes of AAO and covers the surface of AAO layer. In addition, the mechanism for the in-situ growth process of calcium phosphate/porous Al_2O_3 biocomposite coating was discussed. The concentration gradient and potential difference contribute to the incorporation of Ca and P into AAO film, respectively.
作者 何莉萍 吴振军 陈宗璋
机构地区 湖南大学机械与汽车工程学院 湖南大学化学化工学院
出处 《中国有色金属学报》 EI CAS CSCD 北大核心 2004年第3期460-464,共5页 The Chinese Journal of Nonferrous Metals
基金 香港DAG基金资助项目(7100222)
关键词 磷酸钙 钛基体 阳极氧化 PVD 水热处理 生物复合材料 水热合成 calcium phosphate Ti substrate anodization PVD hydrothermal treatment biocomposite
分类号 R318.08 [医药卫生—生物医学工程] TG174.4 [金属学及工艺—金属表面处理]
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参考文献9

  • 1[2]YANGCY, WANGBC, WUJ D, et al. The influences of plasma spraying parameters on the characteristics of hydroxyapatite coating: a quantitative study[J]. J Mater Sci, 1995, 30(6): 249-257.
  • 2[3]Dean D M, Liua M, Troczynskia T, et al. Waterbased sol-gel synthesis of hydroxyapatite: process development[J]. Biomaterials, 2001, 22(13): 1721 -1730.
  • 3[4]Arita H, Castano V M. Synthesis and processing of hydroxyapatite ceramic tapes with controlled porosity[J]. J Mater SciLett, 1995, 14(6): 19-23.
  • 4[5]Zhu P X, Masuda Y, Koumoto K. A noval approach to fabricate hydroxyapatite coating on titanium substrate in an aqueous solution[J]. J Ceram Soc Japan,2001, 109(8): 676 - 680.
  • 5[7]HE Li-ping, LIU Hai-rong, CHEN Da-chuan, et al.Fabrication of HAP/Ni biomedical coatings using an electro-codeposition technique[J]. Surface and Coatings Technology, 2002, 160(2 - 3) : 109 - 113.
  • 6[8]Stoch A, Brozek A, Kmita G, et al. Electrophoretic coating of hydroxyapatite on titanium implants[J]. J Mol Struct, 2001, 596:191-200.
  • 7[9]Shirkhanzadeh M. Direct formation of nanophase hydroxyapatite on cathodically polarized electrodes[J]. J Mater Sci: Mater in Med, 1998, 9(2): 67-72.
  • 8[11]SHI Dong-lu, JIANG Geng-wei. Synthesis of hydroxyapatite films on porous Al2O3 substrate for hard tissue prosthetics[J]. Mater Sci Eng C, 1998,6: 175- 182.
  • 9[12]Prado M H, Silva D, Lima J H C, et al. Transformation of monetite to hydroxyapatite in bioactive coatings on titanium[J]. Surface and Coatings Technology, 2001, 137(2- 3): 270- 276.

同被引文献30

  • 1吴振军,何莉萍,陈宗璋,李素芳.不同电解质制备多孔阳极化Al_2O_3 的形貌与间接诱导形成钙磷涂层能力[J].硅酸盐学报,2004,32(9):1178-1183. 被引量:3
  • 2吴振军,何莉萍,陈宗璋.两步电化学法制备羟基磷灰石/氧化铝复合生物涂层的研究[J].硅酸盐学报,2005,33(2):230-234. 被引量:4
  • 3Martin C. Nanomaterials: a membrane-based synthetic approach[J]. Science, 1994, 266:1961-1966.
  • 4Routkevitch D, Bigioni T, Moskovits M, et al. Electrochemical fabrication of CdS nanowire arrays in porous anodic aluminum oxide templates [J]. J Phys Chem, 1996, 100: 14037- 14047.
  • 5Mozalev A, Magaino S, Imai H. The formation of nanoporous membranes from anodically oxidized aluminium and their application to Li rechargeable batteries[J]. Electrochimica Acta, 2001, 46(18): 2825- 2834.
  • 6Lazarouk S, Katsouba S, Demianovich A, et al. Reliability of built in aluminum interconnection with low-ε dielectric based on porous anodic alumina[J]. SolidState Electronics, 2000, 44(5): 815-818.
  • 7Patermarakis G, Moussoutzanis K, Chandrinos J.Preparation of ultra-active alumina of designed porous structure by successive hydrothermal and thermal treatments of porous anodic Al2O3 films[J]. Applied Catalysis A: General, 1999, 180(1 - 2): 345 - 358.
  • 8Grubbs C. Anodizing of aluminum[J]. Metal Finishing:Guidebook and Directory Issue, 1999, 97(1): 480 - 496.
  • 9Inoue S, Chu S Z, Wada K, et al. New roots to formation of nanostructures on glass surface through anodic oxidation of sputtered aluminum[J]. Sci Tech of Adv Mater, 2003, 4:269-76.
  • 10He L, Mai Y, Chen Z. Fabrication and characterization of nanometer CaP (aggregate)/Al2O3 composite coating on titanium[J]. Mater Sci Eng A, 2004, A367(1-2): 51-56.

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中国有色金属学报
2004年 第3期

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