Ensuring safe operation of monolithic structures in undermined areas

G. Gusev, A. Baryakh, I. Shardakov, R. Tsvetkov
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Abstract

In order to ensure safe operation of buildings in undermined areas, it is necessary to take into account the influence of loads extrinsic to typical structures. The solution of the generalized boundary value problem on the evaluation of the stress-strain state (SSS) of the building–foundation–soil system with due regard for the complete geometry and physically nonlinear behavior of all the elements is inexpedient since it is complicated by the large dimensionality of the problem. This paper discusses an approach allowing the state of monolithic reinforced concrete building structures located in an undermined area to be estimated by solving boundary value problems on different scales, from modeling the whole system in an elastic formulation to modeling joints between load-bearing members (columns and floors) in a nonlinear formulation for concrete and reinforcement. In these problems, strain energy is taken as the parameter characterizing the deformation process at critical deformation stages and connecting the boundary value problems. The obtained loading diagrams for a unit and the evaluation of the SSS of the whole structure enable one to find the values of maximum permissible horizontal soil deformations in the vicinity of the foundation, at which the bearing members reach the SSS preceding the loss of bearing capacity.
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确保破坏区域整体结构的安全运行
为了保证破坏区域建筑物的安全运行,有必要考虑典型结构的外部荷载的影响。在求解建筑-基础-土壤系统应力-应变状态的广义边值问题时,考虑到所有单元的完全几何和物理非线性行为是不合适的,因为问题的高维性使其变得复杂。本文讨论了一种方法,通过求解不同尺度的边值问题来估计位于破坏区域的整体钢筋混凝土建筑结构的状态,从用弹性公式对整个系统建模到用混凝土和钢筋的非线性公式对承重构件(柱和楼板)之间的接缝建模。在这些问题中,在关键变形阶段以应变能作为表征变形过程的参数,并将边值问题联系起来。获得的单元加载图和整个结构的SSS评估使人们能够找到基础附近最大允许水平土体变形的值,在此值上,承载构件在失去承载能力之前达到SSS。
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