Analytical Solution of Stress and Displacement Fields of Frozen Wall in Deep Alluvium According for Time-Space Effect

机译：深度加油中冷冻壁应力与位移场的分析解

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Based on the theory of viscoelasticity and the principle of interaction between surrounding rock and structure in unload state, analytical solution of the stress field and displacement field of the frozen wall is obtained. Calculation results of the stress and displacement fields suggest that radial stress and displacement in the sidewall are very large within 15 days after pouring concrete of the outer shaft wall, which is proved by the fact that engineering incidents such as shaft wall rupture happen exactly at this time. The results also indicate that radial stress at different points in frozen wall all tend to the imposed loads on outer frozen wall finally, and that means the frozen wall is fluidized. This calculation theory can be used in the design of frozen wall in deep alluvium.

机译：基于粘弹性理论和围岩与卸载状态之间的围岩与结构之间的相互作用原理，获得了冷冻壁的应力场和位移场的分析解。压力和位移场的计算结果表明，侧壁的径向应力和位移在倾倒外轴壁的混凝土后15天内非常大，这证明了诸如轴壁破裂的工程事件完全相同的工程事件时间。结果还表明，冷冻壁上不同点处的径向应力倾向于最终膨胀壁上的施加载荷，这意味着冷冻壁是流化的。该计算理论可用于深度加油中的冷冻墙的设计。

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《International Conference on Civil Engineering, Architecture and Building Materials》|2012年||共7页
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作者
Maoyan Ma; Hua Cheng; Chuanxin Rong;
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中图分类 TB3-53;
关键词
Rock and soil mechanics; Deep alluvium; Frozen wall; Creep deformation; Frost heave; Stress field and displacement field;

机译：岩石和土壤力学;深凝固;冷冻墙;蠕变变形;霜冻;应力场和位移场;

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Analytical Solution of Stress and Displacement Fields of Frozen Wall in Deep Alluvium According for Time-Space Effect

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