混凝土在三轴应力状态下的非线性变形模型及其在PRINS计算系统中的实现

V. Agapov, A. S. Markovich, K. Aidemirov
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引用次数: 0

摘要

现代建筑标准和法规规定,在考虑混凝土和钢筋的真实性能的情况下,以非线性公式进行混凝土和钢筋混凝土结构的计算。然而,大多数有限元程序复合物不能在考虑混凝土和钢筋塑性变形的非线性公式中进行此类计算。为了解决这个问题,已经开发了一种方法,并创建了一个适合PRINS计算综合体的实体有限元,这使得考虑其实际工作的钢筋混凝土结构的计算成为可能。研究的目的是开发和实现在三维应力状态下计算钢筋混凝土结构的方法,同时考虑混凝土的脆性断裂和弹塑性变形。提出了考虑混凝土塑性变形的大体积钢筋混凝土结构的有限元计算方法、算法和程序。该方法是在修正的william和Warnke强度准则的基础上补充了流动准则。考虑了混凝土的两种体积变形模型:脆性破坏时的弹性模型和理想弹塑性模型。建立了具有位移线性近似函数的八节点有限元,实现了上述变形模型。一个大体积混凝土三轴压缩结构的验证计算证明了所建立的有限元的准确性和收敛性。PRINS可以被设计和科学组织的工程师有效地用于解决与建筑结构计算有关的广泛的工程问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Models of nonlinear deformation of concrete in a triaxial stress state and their implementation in the PRINS computational complex
Modern construction standards and regulations prescribe to carry out calculations of concrete and reinforced concrete structures in a nonlinear formulation with account of the real properties of concrete and reinforcement. However, the most of finite-element program complexes cannot perform such calculations in a nonlinear formulation with account of plastic deformations of concrete and reinforcement. To solve this problem, a methodology has been developed and a solid finite element adapted to the PRINS computing complex has been created, which made it possible to perform calculations of reinforced concrete structures considering their actual work. The aim of the study - development and implementation of a method for calculating reinforced concrete structures under conditions of a three-dimensional stress state, considering both brittle fracture and elastic-plastic deformation of concrete. A finite-element methodology, algorithm, and program for calculation of massive reinforced concrete structures with account of plastic deformations of concrete have been presented. The methodology is based on the modified Willam and Warnke strength criterion supplemented with the flow criterion. Two models of volumetric deformation of concrete have been regarded: the elastic model at brittle failure and the ideal elastoplastic model. An eight-node finite element with linear approximating functions of displacements implementing the mentioned deformation models is created. Verification calculations of a massive concrete structure in three-axial compression testify to the accuracy and convergence of the developed finite elements. The PRINS can be effectively used by engineers of designing and scientific organizations to solve a wide class of engineering problems related to calculations of building structures.
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