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The effects of process parameters on the mechanical properties and degradation behavior of Fe/HA biodegradable materials

材料科学 烧结 生物相容性 多孔性 复合材料 粉末冶金 复合数 球磨机 降级(电信) 抗压强度 热压 冶金 计算机科学 电信
作者
Yuzhen Feng,Nan Huang,Jing Guo,Shuwen Chen,Shuwen Chen,Yingxue Teng,Shanshan Chen,Shanshan Chen
出处
期刊:Journal of Biomaterials Applications [SAGE Publishing]
卷期号:39 (8): 866-879 被引量:4
标识
DOI:10.1177/08853282241310592
摘要

HA/Fe composites were prepared by powder metallurgy. The effects of ball milling time, pressing pressure, and sintering temperature on the porosity and hardness of the composites were investigated, and their mechanical properties and biocompatibility were evaluated. The results show that as the ball milling time increases (30∼60min), the average particle size initially decreases and then increases (82.91∼53.49∼77.98 μm). Additionally, an appropriate increase in pressing pressure and sintering temperature can decrease the composite's porosity and increase its hardness. When the pressing pressure is 27 KN and the sintering temperature is 1000°C, the composite material has excellent mechanical properties (hardness 268.5 Hv, compressive strength 106.736 MPa) and good in vitro biocompatibility. The hemolysis rate of the sample was 1.719518 %. When the concentration of the extract was 50 %, the cell proliferation rate could reach 136.26 %. Furthermore, the degradation properties of the composites were studied. At 12 months the corrosion rate of HA/Fe composites reached 0.3173 mm/a. It was also observed varying degradation mechanisms was different in different soaking cycles, and the dominant degradation mechanism was gradually changed from HA in the early stage to Fe in the later stage, which played a positive guiding role in the development of iron matrix composites with different degradation rates.
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