НЕЛИНЕЙНЫЙ АНАЛИЗ МАССИВНЫХ ЖЕЛЕЗОБЕТОННЫХ КОНСТРУКЦИЙ С УЧЕТОМ ТРЕЩИНООБРАЗОВАНИЯ

V. Agapov, Alexey Markovich
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Abstract

A finite element method, as well as the algorithm and the program for solid reinforced concrete structures analysis have been developed, taking into account plastic deformations of concrete. A modified Willam & Warnke failure criterion was used, supplemented by a flow criterion. Two models of volumetric deformation of concrete have been developed: an elastic model under brittle fracture and an ideal elastic-plastic model. An eight-node solid finite element with linear approximation of displacement functions, which implements the deformation models above mentioned, is constructed. This finite element is adapted to the PRINS computational software, and as part of this program it can be used for physically nonlinear analysis of building structures containing three-dimensional reinforced concrete elements. Modern building codes prescribe to carry out calculations of concrete and reinforced concrete structures in a nonlinear formulation, taking into account the real properties of concrete and reinforcement. To verify the developed finite element, a series of test calculations of a beam in the condition of pure bending was carried out. Comparison of the calculation results with experimental data confirmed the high accuracy and reliability of the results obtained.
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考虑开裂因素的大体积钢筋混凝土结构非线性分析
考虑到混凝土的塑性变形,我们开发了一种有限元方法,以及用于实体钢筋混凝土结构分析的算法和程序。使用了修改后的 Willam & Warnke 失效准则,并辅以流动准则。开发了两种混凝土体积变形模型:脆性断裂下的弹性模型和理想弹塑性模型。建立了一个八节点实体有限元,对位移函数进行线性近似,以实现上述变形模型。该有限元适用于 PRINS 计算软件,作为该软件的一部分,可用于对包含三维钢筋混凝土构件的建筑结构进行物理非线性分析。现代建筑规范规定,在考虑混凝土和钢筋实际特性的情况下,采用非线性计算方法对混凝土和钢筋混凝土结构进行计算。为了验证所开发的有限元,对纯弯曲状态下的梁进行了一系列试验计算。计算结果与实验数据的比较证实了所获得结果的高准确性和可靠性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
0.80
自引率
0.00%
发文量
43
审稿时长
4 weeks
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