An enhanced phenomenological model to predict surface-based localised corrosion of magnesium alloys for medical use.

C. Quinn, Kerstin van Gaalen, P. McHugh, A. Kopp, T. Vaughan
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引用次数: 1

Abstract

This study developed an enhanced phenomenological model for the predictions of surface-based localised corrosion of magnesium alloys for use in medical applications. The modelling framework extended previous surface-based approaches by considering the role of β-phase components throughout the material volume to better predict spatial and temporal aspects of surface-based corrosion in magnesium alloys. This enhanced surface-based corrosion model offers many advantages as it (i) captures multi-directional pitting, (ii) captures various pit morphologies, (iii) eliminates mesh sizing effects, (iv) reduces computational cost through custom time controls (v) offers control of pit sizing and (vi) produces corrosion rates that are independent of pitting parameter values. The model was fully implemented in three dimensions within the finite element framework and shows excellent potential to enable robust predictions of the long-term performance of magnesium-based implants undergoing corrosion.
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一种增强的现象学模型,用于预测医用镁合金表面局部腐蚀。
这项研究开发了一个增强的唯象模型,用于预测医疗应用中镁合金的表面局部腐蚀。该建模框架通过考虑整个材料体积中β相成分的作用,扩展了以前的基于表面的方法,以更好地预测镁合金中基于表面的腐蚀的空间和时间方面。这种增强的基于表面的腐蚀模型提供了许多优点,因为它(i)捕捉多向点蚀,(ii)捕捉各种点蚀形态,(iii)消除网格尺寸效应,(iv)通过自定义时间控制降低计算成本,(v)提供对点蚀尺寸的控制,以及(vi)产生独立于点蚀参数值的腐蚀速率。该模型在有限元框架内以三维形式完全实现,并显示出极好的潜力,可以对镁基植入物在腐蚀中的长期性能进行稳健预测。
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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