Ti - Al金属间涂层在钛合金Ti6Al4V上的生物相容性

A. Burkov, P. Chigrin, E. Sazonova, P. A. Ilchenko
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摘要

钛合金Ti6Al4V是骨科中最常用的金属材料。但由于其高弹性和生物惰性的特点,使得其表面骨整合困难,导致种植体无菌性松动,耐腐蚀性不足,磨损程度高,导致金属离子和磨损颗粒在患者体内积累。为了消除这些缺点,在等摩尔的钛铝颗粒混合物中对Ti6Al4V合金进行电火花处理,制备了Ti - Al涂层。制备的TiAl涂层由Ti3Al、TiAl、TiAl2和TiAl3金属间相组成,具有较高的摩擦学性能。因此,在模拟体液中,TiAl涂层试样的摩擦系数平均值降低了12%,减少的磨损量是原始Ti6Al4V合金的2.36倍。此外,在Ti6Al4V合金表面沉积TiAl涂层可以提高其表面的耐腐蚀性。生物医学研究表明,在Ti6Al4V合金上沉积TiAl涂层增加了红细胞对溶血剂作用的抵抗力。在ESA沉积TiAl涂层过程中,提高合金表面的生物活性,使成纤维细胞在其表面正常生长,无细胞毒性迹象。用胰蛋白酶- versen溶液处理黏附细胞培养的样品,导致涂层中的细胞密度降低42%,而合金中的细胞密度降低60%。这表明与Ti6Al4V合金相比,成纤维细胞与Ti-Al涂层表面的附着更好。
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Biocompatibility of Ti – Al intermetallic coatings on titanium alloy Ti6Al4V
Titanium alloy Ti6Al4V is the most common metal material in orthopaedics. However, it is characterized by high elasticity and bioinertness, which makes it difficult to osseointegrate on its surface and leads to aseptic loosening of the implant, has insufficient corrosion resistance and high wear, leading to the accumulation of metal ions and wear particles in the body of patients. To eliminate these shortcomings, a Ti – Al coating was prepared by electrospark processing of the Ti6Al4V alloy in an equimolar mixture of titanium and aluminum granules. The prepared TiAl coating consists of intermetallic phases: Ti3Al, TiAl, TiAl2, and TiAl3, which have higher tribological properties. Thus, the average value of the friction coefficient of the sample with a TiAl coating was 12% lower, and the reduced wear was 2.36 times less than the original Ti6Al4V alloy one in a simulating body fluid. In addition, the deposition of a TiAl coating on the Ti6Al4V alloy makes it possible to increase the corrosion resistance of its surface. Biomedical studies have shown that the deposition of a TiAl coating on a Ti6Al4V alloy increases the resistance of erythrocytes to the hemolytic agent action. Improving the biological activity of the alloy surface during ESA deposition of TiAl coating leads to normal growth of fibroblasts on it without signs of cytotoxity. Treatment of samples with adhered cell culture by a solution of trypsin-Versen led to a reduction in the density of cells in the coating by 42 %, while in the alloy by 60 %. This indicates a better fibroblast attachment to the surface of the Ti-Al coating, compared to the Ti6Al4V alloy.
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