Issues involved with thermoactive geotechnical systems: characterization of thermomechanical soil behavior and soil-structure interface behavior

DFI Journal - The Journal of the Deep Foundations Institute Pub Date : 2014-10-01 DOI:10.1179/1937525514Y.0000000010

L. Laloui, C. Olgun, M. Sutman, J. McCartney, C. Coccia, H. Abuel-Naga, G. A. Bowers

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引用次数: 24

Abstract

Abstract This paper focuses on the main issues discussed during a session on the impact of thermohydromechanical behavior of soils on thermoactive geotechnical systems, and how they could affect the performance of thermoactive geotechnical systems. Both soil behavior as well as soil–structure interaction behavior was discussed. The main observation from the session was that the thermohydromechanical behavior of saturated soils has reached a mature understanding, with several established constitutive models that can be used by engineers. However, there are still opportunities to enhance these constitutive models by considering issues such as unsaturated conditions, anisotropic stress states, cyclic heating and cooling effects, and changes in the preconsolidation stress during heating and cooling. Further there are still opportunities to improve our understanding of soil/concrete interface behavior, including the development of novel testing approaches.

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涉及热活性岩土系统的问题:热力学土壤行为和土壤-结构界面行为的表征

摘要:本文重点介绍了在一次会议上讨论的土壤热流体力学行为对热活性岩土系统的影响，以及它们如何影响热活性岩土系统的性能。讨论了土的特性以及土-结构相互作用特性。会议的主要观察结果是，饱和土的热流体力学行为已经达到了成熟的理解，有几个已建立的本构模型可供工程师使用。然而，这些本构模型仍有机会通过考虑非饱和条件、各向异性应力状态、循环加热和冷却效应以及加热和冷却过程中预固结应力的变化等问题来增强。此外，仍有机会提高我们对土壤/混凝土界面行为的理解，包括开发新的测试方法。

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DFI Journal - The Journal of the Deep Foundations Institute

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