THE PROBLEM OF CRACK OPENING WIDTH AND STIFFNESS OF REINFORCED CONCRETE STRUCTURES, BUILDINGS AND CONSTRUCTIONS

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Abstract

The article defines the main results for the development of reinforced concrete mechanics. In the isotropic medium between the cracks is used "first object - flows-blocks", "second object - main cracks" and the effect of reinforced concrete, the physical essence of which is the non-uniformity of concrete and continuous reinforcement. Reactions arise in the concrete for deformation of the reinforcement from the bonding of the compressed concrete in the tensile region. The average resistance of the tensile concrete and the "average total force of the working reinforcement," the third object, are transmitted through the effect of reinforced concrete and the "dowel" effect. The crack opening widths are the relative mutual displacements of reinforcement and concrete, determined from the boundary conditions and the Thomas-Author hypothesis. A new classification of cracks has been developed: regular cracks (anisotropic medium of reinforced concrete) and main cracks based on the effect of reinforced concrete (origins - concentrations) and maximum opening in the closed equations of mechanics of reinforced concrete from the Lagrange function. The author has proposed hypotheses, theorems of linear and angular deformations, functionals for deplanation of cross section of reinforced concrete element from elastic-plastic stage, jumps - cracks and stiffness matrix in a single compound strip which allow to reduce the order of differential equations. The resistance design model method for reinforced concrete mechanics is used for the rod, wall, and slab of the "envelope" of cracks. Hybrid from Lira (finite element method of reinforced concrete from anisotropy) developed in the form of two finite element effect of reinforced concrete of "flat and spatial cantilever" for external and internal displacements. The general principle from Loleith to the "opening - closing" of cracks, the stiffness of the mechanics of reinforced concrete is obtained in the form of the method of the computational model of resistance.
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钢筋混凝土结构、建筑物和构筑物的裂缝张开宽度和刚度问题
本文阐述了钢筋混凝土力学发展的主要成果。在各向同性介质的裂缝之间采用了“第一对象-流-块”、“第二对象-主裂缝”和钢筋混凝土的作用,其物理本质是混凝土的不均匀性和连续钢筋。混凝土中的钢筋变形反应是由受压混凝土在拉伸区域的粘结引起的。受拉混凝土的平均阻力和第三个对象“工作钢筋的平均总力”是通过钢筋混凝土的作用和“销钉”效应传递的。裂缝张开宽度是钢筋和混凝土的相对相互位移,由边界条件和Thomas-Author假设确定。在拉格朗日函数的钢筋混凝土力学封闭方程中,提出了一种新的裂缝分类方法:规则裂缝(钢筋混凝土各向异性介质)和基于钢筋混凝土效应(起源-浓度)和最大开度的主裂缝。作者提出了假设、线性变形定理和角变形定理、弹塑性阶段钢筋混凝土单元截面解算的泛函、单个复合条的跳裂和刚度矩阵,从而降低了微分方程的阶数。钢筋混凝土力学中的阻力设计模型方法适用于裂缝“包络”的杆、墙、板。由Lira(钢筋混凝土各向异性有限元法)发展而来的混合有限元法以“平面和空间悬臂”两种形式对钢筋混凝土的内外位移进行影响。采用阻力计算模型的方法,根据从岩体到裂缝“开-闭”的一般原理,求得钢筋混凝土的力学刚度。
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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