Composition of HA coating and the effect of postprocessing.
羟基磷灰石生物涂层组成及后处理影响。
Binding status and intensity of HA coating and substrate interface.
羟基磷灰石生物涂层与基体的界面结合状态及结合强度。
The ha coating deposited by biomimetic method has lower friction coefficient and better wear resistance compared with the composite coatings.
而与两种复合涂层相比,仿生沉积HA涂层有较低的摩擦系数和更好的耐磨性能。
Conclusions: after pure titanium plates pretreated, porous network oxide films were formed on the surface and after soaked in SBF and 1.5sbf, a HA coating could be precipitated on the oxide films.
结论:预处理后可在纯钛表面形成多孔网状结构的氧化膜,经仿生液处理后在氧化膜表面沉积了羟基磷灰石涂层。
The technology of preparing Hydroxyapatite (HA) - Bioglass (BG) compound coating on a non-line-sight titanium alloy substrate was realized by electrophoretic deposition (EPD).
采用电泳沉积工艺,在非线性形状金属表面成功制备出了羟基磷灰石(HA)—生物玻璃(BG)复合涂层。
The HA gradient coating on ti alloy substrate was developed using PVD and plasma spraying techniques.
采用先进的表面技术复合制备生物活性梯度涂层材料。
As a result, manufacturing HA as a coating on the surface of titanium alloy is the best effective approach of combining the bioactivity of HA and the strength of the titanium alloy.
因此,制备在钛及其合金表面涂覆HA涂层的生物医用复合材料是综合利用二者各自优点的最有效途径。
The interface between plasma spray hydroxyapatite (HA) bioactive gradient coating and ti 6al 4v matrix was studied using transmission electron microscopy.
用透射电子显微镜对钛合金基体等离子喷涂羟基磷灰石(HA)生物活性梯度涂层的界面进行了观察与分析。
Hydroxyapatite (ha) coating is considered as the best type of biomedical material for replacing hard tissues of human body so far, and has high value on clinical application.
羟基磷灰石(HA)生物陶瓷涂层被认为是目前最好的用于替代人体硬组织的一种生物医用材料,具有很高的外科应用价值。
The cell culture results in vitro and MTT tests reveal that, compared with pure HA and pure Ti, the HA/collagen composite coating exhibits best biological properties.
通过本实验使涂层具有类似于自然骨的结构和成分,获得力学性能和生物性能得到一定改善的HA/胶原复合涂层。
The cell culture results in vitro and MTT tests reveal that, compared with pure HA and pure Ti, the HA/collagen composite coating exhibits best biological properties.
通过本实验使涂层具有类似于自然骨的结构和成分,获得力学性能和生物性能得到一定改善的HA/胶原复合涂层。
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