A MICROMECHANICS APPROACH TO THE MECHANICALLY-INDUCED DISSOLUTION IN POROUS MEDIA

机译：机械诱导在多孔介质中溶解的微力学方法

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When subjected to a mechanical loading, the solid phase of a saturated porous medium undergoes a dissolution due to strain-stress concentration effects along the fluid-solid interface. Through a micromechanical analysis, the mechanical affinity is shown to be the driving force of the local dissolution. For cracked porous media, the elastic free energy is a dominant component of this driving force. This allows to predict dissolution-induced creep in such materials.

机译：当受到机械载荷时，由于沿流固界面的应力集中效应，饱和多孔介质的固相会发生溶解。通过微力学分析，机械亲和力显示为局部溶解的驱动力。对于破裂的多孔介质，弹性自由能是该驱动力的主要组成部分。这可以预测此类材料中溶解引起的蠕变。

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《IUTAM(International Union of Theoretical and Applied Mechanics) Symposium on Physicochemical and Electromechanical Interactions in Porous Media; ;》||P.321-327|共7页
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作者
Eric Lemarchand; Luc Dormieux; Franz-Josef Ulm;
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作者单位

LML, CNRS UMR 8107, Villeneuve d'Ascq, France;

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原文格式 PDF
正文语种 eng
中图分类半导体化学;
关键词
creep; dissolution; micromechanics; damage; chemoporoelasticity;

机译：蠕变;溶解;微力学;损伤;化学弹性;

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A MICROMECHANICS APPROACH TO THE MECHANICALLY-INDUCED DISSOLUTION IN POROUS MEDIA

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