用于生物医学应用的聚合物复合材料的体外磨损行为分析。

IF 1.9
Bioinformation Pub Date : 2024-08-31 eCollection Date: 2024-01-01 DOI:10.6026/973206300200950
Arul Jeyakumar Arputham, Queen Alice Arul, Padmapriya Mahalingam, Dipanjan Debnath
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引用次数: 0

摘要

玄武岩纤维增强聚醚醚酮(PEEK)材料是一种生物材料,在许多生物医学和牙科应用中被广泛使用,其摩擦学性能令人感兴趣。我们按照 ASTM G99 标准制作了三种不同重量比例的 PEEK 和玄武岩纤维试样。制备的试样中 PEEK 和玄武岩纤维的重量比例分别为 90:10、80:20 和 70:30,并分别命名为 PBC 1、PBC 2 和 PBC 3。试样使用 EN31 钢作为滑动盘材料进行针盘试验。PBC 2 试样的硬度值较高,为 50.74 HRB。当玄武岩重量百分比从 10% 增加到 20% 时,耐磨性相对较低,但当复合材料中的玄武岩纤维进一步增加时,耐磨性下降。同样,与纯 PEEK、PBC 1 和 PBC 3 复合材料相比,PBC 2 的 COF 值也较高。PBC 2 样品的耐磨性更好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An in vitro wear behavior analysis of polymer composite for biomedical application.

The tribological performance of basalt fiber reinforced PEEK material especially used as a biomaterial in many biomedical and dental applications is of interest. The specimens of three different weight fractions of PEEK and basalt fiber are fabricated as per ASTM G99 standards. The prepared specimens are having PEEK and basalt fiber in the weight percentage of 90:10, 80:20 and 70:30 ratio and named as PBC 1, PBC 2 and PBC 3 respectively. The specimens are subjected to pin-on-disc test using EN31 steel as the sliding disc material. The hardness of PBC 2 specimen shows a better value of 50.74 HRB. Wear resistance is comparatively less when Basalt weight percentage increases from 10% to 20%, but further increase of basalt fiber in the composite, the wear resistance drops down. Similarly, the COF values also noted high for PBC 2 compared to pure PEEK, PBC 1 and PBC 3 composites. PBC 2 sample is found to be better with high wear resistance.

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来源期刊
Bioinformation
Bioinformation MATHEMATICAL & COMPUTATIONAL BIOLOGY-
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