Formation of Solution-derived Hydroxyapatite Coatings on Titanium Alloy in the Presence of Magnetron-sputtered Alumina Bond Coats.

Q3 Medicine Open Biomedical Engineering Journal Pub Date : 2015-02-27 eCollection Date: 2015-01-01 DOI:10.2174/1874120701509010075
Anna Zykova, Vladimir Safonov, Anna Yanovska, Leonid Sukhodub, Renata Rogovskaya, Jerzy Smolik, Stas Yakovin
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引用次数: 11

Abstract

Hydroxyapatite Ca10(PO4)6(OH)2 (HAp) and calcium phosphate ceramic materials and coatings are widely used in medicine and dentistry because of their ability to enhance the tissue response to implant surfaces and promote bone ingrowth and osseoconduction processes. The deposition conditions have a great influence on the structure and biofunctionality of calcium phosphate coatings. Corrosion processes and poor adhesion to substrate material reduce the lifetime of implants with calcium phosphate coatings. The research has focused on the development of advanced methods to deposit double-layered ceramic oxide/calcium phosphate coatings by a hybrid technique of magnetron sputtering and thermal methods. The thermal method can promote the crystallization and the formation of HAp coatings on titanium alloy Ti6Al4V substrates at low temperature, based on the principle that the solubility of HAp in aqueous solutions decreases with increasing substrate temperature. By this method, hydroxyapatite directly coated the substrate without precipitation in the initial solution. Using a thermal substrate method, calcium phosphate coatings were prepared at substrate temperatures of 100-105 (o)C. The coated metallic implant surfaces with ceramic bond coats and calcium phosphate layers combine the excellent mechanical properties of metals with the chemical stability of ceramic materials. The corrosion test results show that the ceramic oxide (alumina) coatings and the double-layered alumina-calcium phosphate coatings improve the corrosion resistance compared with uncoated Ti6Al4V and single-layered Ti6Al4V/calcium phosphate substrates. In addition, the double-layered alumina/hydroxyapatite coatings demonstrate the best biocompatibility during in vitro tests.

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磁控溅射氧化铝键合层在钛合金表面形成溶液衍生羟基磷灰石涂层。
羟基磷灰石Ca10(PO4)6(OH)2 (HAp)和磷酸钙陶瓷材料和涂层因其能够增强组织对种植体表面的反应,促进骨长入和骨传导过程而广泛应用于医学和牙科。沉积条件对磷酸钙膜的结构和生物功能有很大的影响。腐蚀过程和与基底材料的粘附性差降低了磷酸钙涂层植入物的使用寿命。研究重点是利用磁控溅射和热沉积相结合的方法制备双层氧化陶瓷/磷酸钙涂层。基于HAp在水溶液中的溶解度随基体温度升高而降低的原理,热法可以在低温下促进钛合金Ti6Al4V基体上HAp涂层的结晶和形成。通过这种方法,羟基磷灰石直接包覆在衬底上,在初始溶液中没有沉淀。采用热衬底法,在衬底温度为100-105 (o)C的条件下制备磷酸钙涂层。在金属植入体表面涂有陶瓷粘结层和磷酸钙层,将金属优异的机械性能与陶瓷材料的化学稳定性结合在一起。腐蚀试验结果表明,与未涂覆Ti6Al4V和单层Ti6Al4V/磷酸钙相比,陶瓷氧化物(氧化铝)涂层和双层氧化铝-磷酸钙涂层的耐蚀性提高。此外,在体外试验中,双层氧化铝/羟基磷灰石涂层表现出最佳的生物相容性。
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来源期刊
Open Biomedical Engineering Journal
Open Biomedical Engineering Journal Medicine-Medicine (miscellaneous)
CiteScore
1.60
自引率
0.00%
发文量
4
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