Corrosion behavior of Ti-Cu coating on the surface of bone magnesium alloy
10.3969/j.issn.2095-4344.2013.42.004
- VernacularTitle:骨用镁合金表面Ti-Cu涂层的腐蚀行为
- Author:
Zhihai ZANG
;
Dongsong YIN
;
Xiaojing XU
;
Qingwei YIN
;
Ligang WANG
;
Wenjun LIU
- Publication Type:Journal Article
- Keywords:
biocompatible materials;
corrosion;
biodegradation;
environmental;
magnesium;
fracture fixation
- From:
Chinese Journal of Tissue Engineering Research
2013;(42):7363-7368
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND:Magnesium al oy as a fracture fixation material has mechanical properties similar to the bone, good biocompatibility and biodegradability, but its rapid degradation rate in body fluids becomes a clinical bottleneck. Therefore, the use of surface treatments to improve its corrosion resistance is important.
OBJECTIVE:To use magnetron sputtering technology and alkali heat treatment technology in the preparation of coating characterized as both corrosion resistance and biological activity.
METHODS:First, we prepared Mg-Zn-Mn al oy using the smelting technology, and prepared a dense coating on the al oy surface by the magnetron sputtering technique. Then, we processed the coating surface using an alkaline solution, and studied the corrosion behavior of the coating by use of simulated body fluid experiments. We speculated the biological activity of the coating by measuring the content of calcium and phosphorus from the surface products.
RESULTS AND CONCLUSION:We prepared the coating, which had both corrosion resistance and biological activity, on the surface of magnesium al oy by use of magnetron sputtering and alkali heat treatment technology. After soaking in the simulated body fluid for 24 hours and 168 hours, the deposition of the coating surface contained Ca, P products. Ca/P ratios were 1.54 and 2.11, respectively, closed to the bone-phosphate Ca/P ratio. The coating surface formed 5-10μm pitting after 24 hours of immersion, and the pitting grew up with the immersion time. The pitting was enlarged to 100-800μm after 168 hours.
