Laser irradiation of Mg-Al-Zn alloy: Reduced electrochemical kinetics and enhanced performance in simulated body fluid
Abstract
As a lightweight metal with mechanical properties similar to natural bone, Mg and its alloys are great prospects for biodegradable, load bearing implants. However, rapid degradation and H2 gas production in physiological media has prevented widespread use of Mg alloys. Surface heterogeneities in the form of intermetallic particles dominate the corrosion response. This research shows that surface homogenization significantly improved the biological corrosion response observed during immersion in simulated body fluid (SBF). The laser processed Mg alloy exhibited a 50% reduction in mass loss and H2 evolution after 24 h of immersion in SBF when compared to the wrought, cast alloy. The laser processed samples exhibited increased wettability as evident from wetting angle studies, further suggesting improved biocompatibility. Electrochemical analysis by potentiodynamic polarization measurements showed that the anodic and cathodic kinetics were reduced following laser processing and are attributed to the surface chemical homogeneity.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- May 11, 2017
- Source ID
- 10.1116/1.4983272
Entities
People
- Bruce F. Briglia
- David C. Florian
- Fritz W. Steuer
- James M. Fitz-gerald
- John R. Scully
- Michael A. Melia
- Michael K. Purzycki
Organizations
- United States Army Aeromedical Research Lab
- University of Virginia