OVX Group: the bone plate of implant surface was thinner and poor continuity.
OV X组:种植体表面结合骨板较薄,连续性差。
This review focuses on the chemical composition and topography on nanoscale implant surface.
下面就种植体表面纳米改性的化学成分和几何形貌作一综述。
Object: To analyze Relation of Elastic Modulus and Bone-implant Surface Stress Distribution.
目的:分析种植体弹性模量与骨界面应力分布的关系。
Objective: To analyze Relation of Elastic Modulus and Bone-implant Surface Stress Distribution.
前言:目的:分析螺旋形种植体弹性模量与骨界面应力分布的关系。
Surface microstructure is a research focus in the area of titanium implant surface modification.
钛种植体表面形貌是钛种植体表面改性的研究热点之一。
Objective: To study the effect of zinc supplement on bone-contacting implant surface ratio (BCSR).
目的:探讨微量元素锌对种植体骨整合率的作用。
Abstract: Objective: To compare the efficiency of two methods in detecting the osseointegration on titanium implant surface.
摘要目的:探讨最佳反映牙种植体表面骨结合情况的检测方法。
The present invention relates to an implant surfaces and treatments for wear reduction, especially discloses methods and devices directed to surface treatment of implants.
本发明涉及植入体表面和用于降低磨损的处理,尤其公开了涉及植入体表面处理的方法和器械。
This review summarized effects of different implant surface microstructure on osteoblasts at bone-implant interface, in order to guide optimization of implant surface microstructure.
本文综述了种植体表面微结构对种植体-骨组织界面成骨细胞的生物学行为的影响,为研究和设计种植体表面微结构提供参考。
The Biological properties of titanium implant depend on its surface oxide film.
钛植入体的生物学性能取决于其表面氧化膜的表征。
By using these biologically active binders, the therapeutic agents can be applied to at least one surface of a medical implant without using inert polymer carriers.
通过使用这些生物活性粘合剂,治疗剂不必使用惰性聚合物载体就能被覆盖到医疗移植物的至少一个表面上。
Conclusion Skin graft and alveolar mucosa both formed fiber connective tissue attachment on the surface of implant, which seal the environment between the oral and bone-interface.
结论口腔环境下,皮肤和牙槽黏膜均有纤维结缔组织在种植体表面附着,形成“袖口”,起生物封闭作用。
AIM To study the tarnish induced by Porphyromonas gingivalis 381 on implant denture surface of titanium and ti 75 alloy.
目的研究牙龈卟啉菌381对纯钛及钛75合金种植体表面失泽腐蚀。
CONCLUSION: At the point of stress level recovery of the surface and internal femoral head, the structural bone graft is better than the cancellous bone granule implant.
结论:结构性松质骨块的植入对恢复股骨头表面及内部的应力水平要优于松质骨粒。
This review of the literature attempts to address the surface treatment method of dental implant.
本文就种植体表面改性的方法做一综述。
The mechanism and integrating strength of the composite coating with the surface of cobalt alloy dental implant made by a two-step-sintering method were studied in this paper.
采用两步烧结法烧成的钛合金牙种植体表面与复合涂层结合强度及结合机理。
OBJECTIVE: to prepare a bioactive coating on the surface of the titanium alloy implant, and to evaluate one promising strategy to enhance osseointegration.
目的:在钛合金种植体表面制备生物活性涂层,寻找一种有效促进骨整合的方法。
There exist the charging effects because of charge accumulation at the surface of dielectric, which decrease the dielectric surface potential and the ion implant energy.
在介质表面存在电荷积累引起的充电效应,这降低了介质表面电势和离子注入能量;
The mismatch between ion implant and the surface of a metal creates atomic defects that harden the surface.
离子注入和金属表面之间的错配产生了硬化表面的原子瑕疵。
As one example, a metallic surface of an implant can be treated to form pits in the surface, followed optionally by a smoothing step to reduce the roughness of the pitted surface.
作为一个例子,植入体的金属性表面可以被处理以在表面内形成凹坑,接着可选地通过光滑化步骤减小所述带凹坑的表面的粗糙度。
The deflecting electric field method we presented has been proved to be valid for inner surface PIII, and can increase retained dose and implant energy greatly.
研究表明,提出的偏转电场法是进行内表面注入处理的有效方法,可以极大提高内表面注入的注入剂量和注入能量。
Thus the ions are continuously accelerated to implant the sample surface by the change electric field of the sheath, so as to achieve to modify the surface properties.
在鞘层中电场的作用下,离子被源源不断地加速注入到样品表面,从而达到改善材料表面性能的目的。
Abstract : Objective To investigate the influence of new zirconia implant and surface modified method on the osseointegration to provide evidence for the development and application of the implant .
摘要目的研究氧化锆种植体材料及新涂层处理方法对骨结合的影响,为该种植体系统开发及应用提供依据。
The biocompatible metal surface of the implant is submitted to electrochemical etching in an electrolyte to which an electric current is applied.
所述植入物的生物相容性金属表面在施加电流的电解质溶液中进行电化学蚀刻。
The biocompatible metal surface of the implant is submitted to electrochemical etching in an electrolyte to which an electric current is applied.
所述植入物的生物相容性金属表面在施加电流的电解质溶液中进行电化学蚀刻。
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