Current Opinion in Solid State & Materials Science ( IF 12.2 ) Pub Date : 2020-05-19 , DOI: 10.1016/j.cossms.2020.100822 J. Venezuela , M.S. Dargusch
The movement towards the commercialization of biodegradable Fe has been hampered by the perceived slow degradation rate of the metal in physiological environments. The introduction of Fe-Mn alloys offers promise due to its significantly improved biocorrosion rates, excellent biocompatibility, and non-magnetic properties. However, the issue of slow corrosion rates persists in this alloy and its future hinges on addressing this issue. This short review report presents the current approaches to address this problem, the challenges concerning Fe-Mn corrosion, and some future techniques that may improve the degradation rate of Fe-Mn alloys.
中文翻译:
解决可生物降解的Fe-Mn的缓慢腐蚀速率:当前方法和未来趋势
可以感知的金属在生理环境中的缓慢降解速度阻碍了可生物降解的铁商品化的进程。Fe-Mn合金的引入由于其显着提高的生物腐蚀速率,出色的生物相容性和非磁性质而提供了希望。但是,这种合金仍然存在腐蚀速率慢的问题,其未来取决于解决这个问题。这份简短的综述报告介绍了解决该问题的当前方法,有关Fe-Mn腐蚀的挑战以及一些可能提高Fe-Mn合金降解速率的未来技术。