Conclusion ti 75 is an ideal implant material and a variety of clinical applications may be expected.
结论钛75是一种理想的种植材料,可望广泛应用于临床。
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。
So developing novel ti alloys with much better biocompatibility and much lower elastic modulus for orthopedic implant is considered as the most efficient way to reduce the stress shielding.
开发具有良好生物相容性和更低弹性模量的外科植入用新型钛合金成为解决这一问题的有效途径。
Objective To evaluate the corrosion behavior of Gold alloy, Titanium alloy, Ni-Cr alloy and ti implant abutment in vitro.
目的评价金合金、钛合金、镍铬合金和钛种植体基台在体外的腐蚀性能。
Conclusions the canines mandibular posterior alveolar ridge could be augmented by distraction osteogenesis using Ti-Ni SMA distractor, and the new bone is strong enough for implant placement.
结论用钛-镍记忆合金牵张器牵张,增高犬下颌后牙区牙槽嵴,新生骨质量可以满足种植等后期修复的要求。
METHODS: The antibacterial hydroxyapatite coating material which contained silver-zirconium phosphate antimicrobial was prepared on the Ti implant by using vacuum plasma spraying technology.
方法:采用真空等离子喷涂技术,在钛基材表面制备含磷酸锆载银抗菌剂的抗菌羟基磷灰石涂层材料。
Methods The titanium porous surfaced implant was made by plasma spray with ti powder. It's ti coated porous surfaced was observed analysed and tested.
方法选用等离子喷涂方法,将纯钛粉喷涂到纯钛桩表面,形成表面多孔种植体,并对涂层成份进行分析,力学测试粘接强度及扫描电镜观察表面形态。
Results ti 75 implant showed good biocompatibility and formed implant bone interface.
结果钛75种植体具有良好的生物相容性,钛75与骨形成良好的骨界面。
It is expected that these novel low elastic modulus Ti-Nb-Zr alloys, can decrease the stress shielding and prolong the implant service life.
这些合金具有低弹性模量,因此有望减弱“应力屏蔽”效应,延长植入物材料的使用寿命。
The bone harvest chamber is a cylindrical ti implant body with a transverse 1 - mm wide canal for tissue ingrowths.
骨收获室是带有一个一毫米宽的骨长入孔道的钛制圆柱形植入体。
The bone harvest chamber is a cylindrical ti implant body with a transverse 1 - mm wide canal for tissue ingrowths.
骨收获室是带有一个一毫米宽的骨长入孔道的钛制圆柱形植入体。
应用推荐