Effective Physical Properties of Sandstones

机译：砂岩的有效物理性质

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In this paper we continue the investigation of the effective transport parameters of a digitized sample of Fontainebleau sandstone and three reconstruction models discussed previously in Biswal et. al., Physica A 273, 452 (1999). The effective transport parameters are computed directly by solving the disordered Laplace equation via a finite-volume method. We find that the transport properties of two stochastic models differ significantly from the real sandstone. Moreover, the effective transport parameters are predicted by employing local porosity theory and various traditional mixing-laws (such as effective medium approximation or Maxwell-Garnet theory). The prediction of local porosity theory is in good agreement with the exact result.

机译：在本文中，我们继续研究枫丹白露砂岩数字化样品的有效输运参数，以及之前在Biswal等人中讨论的三种重建模型。等，Physica A 273，452（1999）。有效输运参数是通过有限体积方法通过求解无序拉普拉斯方程来直接计算的。我们发现，两种随机模型的输运性质与真实砂岩有很大不同。此外，有效的输运参数是通过采用局部孔隙率理论和各种传统的混合定律（例如有效介质近似或麦克斯韦-加内特理论）来预测的。局部孔隙率理论的预测结果与实际结果吻合良好。

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《IUYAM Symposium on Theoretical and Numerical Methods in Continuum Mechanics of Porous Materials, Sep 5-10, 1999, Stuttgart, Germany》|1999年|p.113-118|共6页
会议地点 Stuttgart(DE)
作者
J. Widjajakusuma; R. Hilfer;
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作者单位

ICA-1, Universitaet Stuttgart, Pfaffenwaldring 27, 70569 Stuttgart;

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原文格式 PDF
正文语种 eng
中图分类一般工业技术;
关键词
porous materials; effective material parameters; self-consistent method; microstructure;

机译：多孔材料有效材料参数；自洽方法微观结构;

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Effective Physical Properties of Sandstones

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