Effect of SBF on Cyclic Compression Behaviour of Porous Titanium Component for Implant Application

Industrial Engineer Pub Date : 2020-09-04 DOI:10.11648/J.IE.20200402.14

Munshi Muhammad Raihan, A. K. Piya, Mirajul Mahmud Abir, M. A. Hossain

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Abstract

In the recent years, porous structure is being drawn attention to the researcher for implant application for superior characteristics over bulk materials. The aim of this study is to evaluate the cyclic compression behaviour of porous titanium components in simulated body fluid (SBF). Porous titanium component developed by replica impregnation method was taken for study. Compression tests in air revealed that the yield strength of the porous body is 8MPa on average and elastic modulus is around 180MPa which is compatible to cancellous bone application. After 10% strain porous structure deformed plastically producing a long plateau region. Compressive fatigue tests revealed that at higher stress level porous titanium failed earlier in SBF than in air. In contrast, fatigue limit of porous substrate is 2 MPa which was not affected by SBF medium. After 10 million cycles in SBF, Calcium Phosphate layer was partially formed on the surface of porous titanium by re-precipitation from SBF. EDS analysis showed that the Ca/P atomic ratio was 1.44 which is near to beta TCP and HA phase and these phases are beneficial for bone tissue ingrowth.

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SBF对多孔钛构件循环压缩性能的影响

近年来，多孔结构由于其优于块状材料的特性，在植入物应用方面受到了研究人员的关注。本研究的目的是评估多孔钛组件在模拟体液(SBF)中的循环压缩行为。以复模浸渍法制备的多孔钛构件为研究对象。空气压缩试验结果表明，多孔体的屈服强度平均为8MPa，弹性模量在180MPa左右，与松质骨的应用相适应。10%应变后多孔结构发生塑性变形，形成较长的高原区。压缩疲劳试验表明，在较高的应力水平下，多孔钛在SBF中比在空气中更早失效。多孔基板的疲劳极限为2 MPa，不受SBF介质的影响。在SBF中循环1000万次后，SBF再沉淀在多孔钛表面部分形成磷酸钙层。EDS分析表明，Ca/P原子比为1.44，接近β - TCP和HA相，这些相有利于骨组织长入。

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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Industrial Engineer

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