Thermal degradation study for manufacturability of polyetheretherketone/hydroxyapatite bone implant composite

INTERNATIONAL CONFERENCE ON MULTIFUNCTIONAL MATERIALS (ICMM-2019) Pub Date : 2020-10-12 DOI:10.1063/5.0019705

S. Kumar, Rahul Chhibber, S. Sapthagiri

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Abstract

Polyetheretherketone (PEEK) is a semi-crystalline, high temperature resistant, FDA approved polymer, attracted many engineering and medical research practitioners due to its excellent mechanical and biological properties. PEEK has comparable mechanical properties to natural bone and its polymeric constituent. PEEK has been identified as one of the high temperature(Tm= 373°C) polymers with excellent thermal, chemical and radiological inertness. High temperature resistance, good Young's modulus and biological inertness of PEEK attract it to be a prominent bone implant material. Metallic bone implants have been surpassed slowly by PEEK composites. However, PEEK is found to be inferior in rigidity to natural bone due to its limited Young's modulus. Hydroxyapatite (C10(PO4)6(OH)2), a bone inductive and ceramic reinforcement is extracted from egg shells by thermal processing to strengthen PEEK matrix of the proposed bone composite. Upon several delimiting studies, ceramic constituent is limited to 40% by weight. The combination of constituents being newer, an exhaustive study on thermal stability of the composite has been carried out at ARCI, IICT and KELVN Hyderabad. Thermal gravimetric analysis (TGA), Derivative thermo gravimetric analysis (DTG) and Differential Scanning Calorimetry (DSC) were the sources of analysis. TGA, DTG and DSC have been used to evaluate percentage of weight loss, peak degradation temperature and melting temperature respectively. Degradation of the composite was found to increase with the percentage of PEEK in the composite. The study has been conducted beyond the melting temperature of the PEEK and up to 600°C. Degradation of the composite has been showing an inverse relation with rate of heating. Maximum percentage of mass degradation 28.7% of the total weight was recorded in structurally superior PEEK/HA 80/20 composite at a rate of heating 10C/min as against 33.9% in pure PEEK.

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聚醚酮/羟基磷灰石骨种植体复合材料可制造性的热降解研究

聚醚醚酮(PEEK)是一种半结晶、耐高温、经FDA批准的聚合物，由于其优异的机械和生物性能，吸引了许多工程和医学研究从业者。PEEK具有与天然骨及其聚合物成分相当的机械性能。PEEK是一种高温(Tm= 373℃)聚合物，具有优良的热惰性、化学惰性和放射性惰性。PEEK的耐高温性、良好的杨氏模量和生物惰性使其成为一种突出的骨植入材料。金属骨植入物已经慢慢被PEEK复合材料所超越。然而，由于其有限的杨氏模量，PEEK被发现在刚性方面不如天然骨。羟基磷灰石(C10(PO4)6(OH)2)，一种骨感应和陶瓷增强剂，通过热处理从蛋壳中提取，以增强所提出的骨复合材料的PEEK基质。根据几项划界研究，陶瓷成分的重量限制在40%。成分的组合是较新的，在ARCI, IICT和KELVN海得拉巴进行了对复合材料热稳定性的详尽研究。热重分析(TGA)、导数热重分析(DTG)和差示扫描量热分析(DSC)是分析的来源。用TGA、DTG和DSC分别评价了失重率、峰值降解温度和熔融温度。发现复合材料的降解随着复合材料中PEEK的百分比增加而增加。该研究已经进行了超过PEEK的熔化温度和高达600°C。复合材料的降解与升温速率呈反比关系。在加热速率为10C/min时，结构优越的PEEK/HA 80/20复合材料的最大质量降解率为总重量的28.7%，而纯PEEK为33.9%。

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INTERNATIONAL CONFERENCE ON MULTIFUNCTIONAL MATERIALS (ICMM-2019)

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