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首页> 外文期刊>International Journal of Engineering Science >Analysis of small temperature oscillation in a deformable solid matrix containing a spherical cavity filled with a compressible liquid - Analytical solutions for damage initiation induced by pore pressure variation
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Analysis of small temperature oscillation in a deformable solid matrix containing a spherical cavity filled with a compressible liquid - Analytical solutions for damage initiation induced by pore pressure variation

机译:分析球形腔中充满可压缩液体的可变形固体基质中的小温度振荡-孔隙压力变化引起损伤的解析解。

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This paper analyzes the possibility of damage initiation induced by a very small temperature variation near a liquid-filled spherical cavity inside a deformable solid matrix. Experiments confirm that small temperature variations in a (compressible) liquid-filled cavity can induce high pressure peaks, depending on the initial temperature and pressures The mam motivation of the study is to verify the possibility of damage initiation induced by a very small temperature variation in a saturated liquid-filled porous medium with ultra-low permeability. Depending on the interaction between micro-cracks and pores, this damage may significantly affect the permeability conditions The study of a single water-filled pore in an infinite matrix is quite a convenient preliminary step, since the stress field in the solid matrix is independent of its constitutive behavior (a statically determinate problem) what allows simplifying the complex coupled non-linear analysis. An abstract thermodynamic framework is used to present constitutive theories for generalized compressible Newtonian fluids and for elastic and elasto-plastic solid matrix behaviors Both theories encompass a wide variety of constitutive models for solids and fluids found in the literature and can be applied in many engineering problems involving liquid-filled porous media. Using an adequate equation of state for the thermodynamic pressure proposed for liquid water at high pressures, it is possible to predict analytically if a very small liquid temperature variation (maximum of 5K) can induce the matrix failure Two examples of matrix behaviors are analyzed: brittle-elastic and elasto-plastic. Adequate failure criteria are used in each case to predict analytically the critical pressure required for the damage initiation. Once this pressure is determined, the temperature variation necessary to the damage initiation can also be obtained using the state law proposed for the thermodynamic pressure. (C) 2018 Elsevier Ltd. All rights reserved.
机译:本文分析了在可变形固体基质内部充满液体的球形空腔附近因很小的温度变化而引发破坏的可能性。实验证实,(可压缩的)充满液体的空腔中的小温度变化会引起高压峰值,具体取决于初始温度和压力。这项研究的动机是要验证由于温度变化很小而引发破坏的可能性。具有超低渗透性的饱和液体填充多孔介质。取决于微裂纹和孔隙之间的相互作用,这种破坏可能会显着影响渗透率条件。研究无限大基质中的单个充水孔隙是非常方便的初步步骤,因为固体基质中的应力场与它的本构行为(静态确定的问题)可以简化复杂的耦合非线性分析。一个抽象的热力学框架被用来表示广义可压缩牛顿流体以及弹性和弹塑性固体基质行为的本构理论。这两种理论都涵盖了文献中发现的各种各样的固体和流体本构模型,并且可以应用于许多工程问题。涉及充满液体的多孔介质。使用针对液态水在高压下建议的热力学压力的适当状态方程,可以通过分析预测非常小的液态温度变化(最大5K)是否会引起基体破坏,分析了两个基体行为的例子:脆性弹性和弹塑性。在每种情况下,都使用适当的失效标准来分析性地预测破坏开始所需的临界压力。一旦确定了该压力,就可以使用为热力学压力提议的状态定律来获得破坏开始所需的温度变化。 (C)2018 Elsevier Ltd.保留所有权利。

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