Evaluation of PEEK-Based Composites for Biomedical Applications by Performing Lubricated Sliding and Bone Growth Studies

Biomedical materials & devices (New York, N.Y.) Pub Date : 2023-10-12 DOI:10.1007/s44174-023-00124-6

Sabah Javaid, Caleb Matzke, Maharshi Dey, Yun Ji, Surojit Gupta

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Abstract

We report the fluid lubrication properties of different Polyether ether ketone (PEEK) composites and their bone growth behavior by in vitro studies. Fluid tribological performance of PEEK- MAX (10%Cr2AlC), PEEK-(MAB)10%MoAlB, PEEK-10% DDGS500 (biochar of Distiller’s dried grains with soluble (DDGS) after pyrolysis at 500 °C), PEEK-10%Mo, and PEEK-10% Xonotlite composites were evaluated in Deionized and Distilled (DDI) water and Simulated Body Fluid (SBF) medium. The tribological performance of PEEK-10%Cr2AlC, PEEK-10%MoAlB, and PEEK-10%Mo composites against the stainless steel in both DDI water and SBF medium was better than PEEK. PEEK-10%DDGS composites showed similar wear performance under both water and SBF lubrication as compared to PEEK but it showed lower friction coefficient. This further shows that biochar can be integrated with the PEEK matrix. Detailed SEM analysis was used to document the apatite growth on the surfaces after treating them in SBF medium. By analyzing the microstructural images, we have identified DDGS500, Mo, and Xonotlite as promising additives for promoting apatite growth in SBF medium.

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通过润滑滑动和骨生长研究评估peek基复合材料在生物医学上的应用

我们报道了不同聚醚醚酮(PEEK)复合材料的流体润滑性能及其骨生长行为的体外研究。研究了PEEK- MAX (10%Cr2AlC)、PEEK-(MAB)10%MoAlB、PEEK-10% DDGS500(蒸馏酒干颗粒与可溶性(DDGS)在500℃热解后的生物炭)、PEEK-10% mo和PEEK-10% Xonotlite复合材料在去离子水和蒸馏水(DDI)和模拟流体(SBF)介质中的流体摩擦学性能。PEEK-10% cr2alc、PEEK-10% moalb和PEEK-10% mo复合材料在DDI水和SBF介质中对不锈钢的摩擦学性能均优于PEEK。PEEK-10% ddgs复合材料在水润滑和SBF润滑下的磨损性能与PEEK相似，但摩擦系数较低。这进一步表明生物炭可以与PEEK基质相结合。在SBF培养基中处理后，用SEM详细记录了表面磷灰石的生长情况。通过显微结构图像分析，我们确定了DDGS500、Mo和xonolite是促进SBF培养基中磷灰石生长的有前途的添加剂。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Biomedical materials & devices (New York, N.Y.)

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