1) biomedical titanium
医用钛
1.
This paper reviews the progress on nano-apatite coatings and self-assembled monolayers on biomedical titanium surfaces so as to provide material engineers and scientists as well as concerned readers with information.
本文从医用钛表面纳米羟基石涂层和自组装改性两方面介绍了相关研究进展,以便为材料科技工作者和有关人员提供信息。
2) medical titanium net
医用钛网
1.
【Objective】Probing into the effects of treating metracarpophalangeal fracture by using medical titanium nets that are cut into bone-bonding plates of various shapes to match screws according to the types of fracture during operation.
【目的】探讨使用医用钛网,术中根据骨折类型剪裁成各种形状的接骨板配合螺钉,治疗掌指骨骨折效果。
4) Biomedical titanium alloy
医用钛合金
1.
Biomedical titanium alloys with excellent biocompatibility and fretting resistance are widely adopted for false teeth,stents and artificial heart valve,as their elasticity module approaches to that of body tissue.
医用钛合金的弹性模量与人体组织接近,且具有良好的生物相容性和抗蚀能力,在义齿、血管支架、人工机械心脏瓣环中应用广泛。
2.
Surface finish technology was studied for biomedical titanium alloy(Ti-6Al-4V) implants in common use.
研究了一种对常用的医用钛合金(Ti-6A l-4V)试件进行表面光整加工的新工艺。
5) biomedical titanium alloys
医用钛合金
1.
Oxidization treatment of biomedical titanium alloys was carried out by a composite process (anodic oxidization+thermal oxidization).
采用阳极氧化与热氧化相结合的复合氧化方法对医用钛合金进行氧化处理,研究了溶液组成及后处理工艺对表面形貌及耐蚀性的影响。
2.
The research and development status of biomedical titanium alloys was introduced and the main problems of biomedical titanium alloys were analyzed.
介绍了新型医用钛合金的研究开发现状 ,分析了医用钛合金存在的主要问题 ,即耐磨性、耐腐蚀性和生物活性有待进一步提高。
3.
The application of biomedical titanium alloys are introduced and the corrosion mechanism are analysed.
介绍了医用钛合金的应用前景,分析了其腐蚀机理,并简述了新型医用钛合金及其表面耐蚀性涂层的研究进展。
6) biomedical Ti alloys
生物医用钛合金
1.
Research findings on biomedical Ti alloys in recent years are summarized.
概述了近年来生物医用钛合金的研究,比较了掺杂锡的钛合金与不掺杂锡的钛合金的各种性能差异,重点介绍了含锡钛合金的研究与新进展。
补充资料:医用钛
分子式:
CAS号:
性质:用于制造植入人体内的医疗器件、假体或辅助治疗设备的金属钛。医用钛耐蚀性能优异,弹性模量接近于自然骨,生物相容性优良。医用纯钛都是单相组织,不能通过热处理强化。根据杂质元素碳、铁、氧等含量的多少分为1,2,3,4级。用作体内接骨板、骨螺钉、牙种植体等,也用钛网或铁板制成人工颅骨、人工心瓣膜、心脏起搏器及放射治疗用钛合金等。
CAS号:
性质:用于制造植入人体内的医疗器件、假体或辅助治疗设备的金属钛。医用钛耐蚀性能优异,弹性模量接近于自然骨,生物相容性优良。医用纯钛都是单相组织,不能通过热处理强化。根据杂质元素碳、铁、氧等含量的多少分为1,2,3,4级。用作体内接骨板、骨螺钉、牙种植体等,也用钛网或铁板制成人工颅骨、人工心瓣膜、心脏起搏器及放射治疗用钛合金等。
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