机译:阐明Ti-6A1-4V牙科植入物的腐蚀相关降解机理
Univ Calif Los Angeles Dept Civil & Environm Engn Lab Chem Construct Mat LC2 Los Angeles CA USA;
Univ Calif Los Angeles Sch Dent Los Angeles CA 90024 USA;
Univ Calif Los Angeles Dept Civil & Environm Engn Lab Chem Construct Mat LC2 Los Angeles CA USA|Univ Calif Los Angeles Dept Mat Sci & Engn Los Angeles CA 90024 USA;
Univ Calif Los Angeles Dept Civil & Environm Engn Lab Chem Construct Mat LC2 Los Angeles CA USA|Univ Calif Los Angeles Dept Mat Sci & Engn Los Angeles CA 90024 USA|Univ Calif Los Angeles Calif Nanosyst Inst CNSI Los Angeles CA USA|Univ Calif Los Angeles Inst Carbon Management Los Angeles CA USA;
Titanium alloys; Corrosion; Metal implants; EIS; Surface characterization;
机译:钛牙科植入物的降解机制
机译:钛及其合金在口腔环境中牙科植入物的降解机理及未来挑战
机译:口腔环境中钛及其合金的降解机制和未来挑战
机译:Ti-6A1-4V与Ti-6A1-4V接触的微动腐蚀以及Ti-Al-4V与氧化锆的微动腐蚀:种植体对基台的腐蚀
机译:用于选择低密度和骨质疏松骨患者螺旋式牙科植入物的机制
机译:集成cryoEM阐明了人胰岛素降解酶捕获和降解胰岛素的机制
机译:钛牙科植入物的降解机制
机译:通过纤维素发现,分子机制的纳米级阐释和动力学建模解决纤维素降解的顽固性。最终技术报告