NONLINEAR REFINEMENT OF THE DEFORMATION MODEL OF ORTHOTROPIC MATERIALS, THE RIGIDITY OF WHICH DEPENDS ON THE TYPE OF STRESS STATE

A. Treshchev, Nikita Yushchenco, A. Bobryshev
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Abstract

As a result of numerous experimental and theoretical studies, it has been established that when deforming both traditional and new structural materials, which are polymers, composites and synthetic structures used in construction, mechanical engineering, and power engineering devices, complicated mechanical properties manifest themselves.Most of these materials have an orthotropic structure complicated by the dependence of deformation and strength characteristics on the type of stress state, which can be interpreted as deformation anisotropy. These properties contradict the generally accepted theories of deformation. Therefore, a number of models have been specially developed for such materials over the past 56 years, taking into account the complicated properties of materials. However, all of them have disadvantages and certain contradictions with the fundamental rules for constructing equations of state. The previous works of the authors of the presented studies establish general approaches to the construction of energetically nonlinear deformation models of composite materials with recommendations for calculating their constants based on a wide range of experiments.It turned out that the set of necessary experiments should include experiments on complex stress states, most of which are technically unrealizable. In another work of the authors in 2021, using the tensor space of normalized stresses, the deformation potential was formulated in a quasi-linear form, constructed in the main axes of orthotropy of materials, for determining constants, which is sufficient for the data of the simplest experiments. Along with the obvious advantages of the introduced potential, it has one drawback, which is to replace real nonlinear diagrams with direct rays with minimal error. Despite the unconditional adequacy of the quasi-linear potential, the use of this level of approximations leads to quantitative errors.Therefore, simplified nonlinear equations of state for composite materials are proposed here, the simplest experiments are sufficient to determine the material functions of which. These equations are based on the general laws of mechanics, on the basis of which the constants of material polynomials for a carbon-graphite composite are calculated, taking into account the Drucker constraints.
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正交各向异性材料变形模型的非线性细化,其刚度取决于应力状态的类型
大量的实验和理论研究表明,无论是传统结构材料还是新型结构材料,如用于建筑、机械工程和动力工程装置的聚合物、复合材料和合成结构,在变形时都表现出复杂的力学性能。这些材料大多具有正交各向异性结构,变形和强度特性依赖于应力状态的类型,这可以解释为变形各向异性。这些性质与普遍接受的变形理论相矛盾。因此,在过去的56年里,考虑到材料的复杂性质,专门为这类材料开发了许多模型。然而,它们都有缺点,与构造状态方程的基本规则存在一定的矛盾。本研究的作者先前的工作建立了构建复合材料能量非线性变形模型的一般方法,并根据广泛的实验提出了计算复合材料能量非线性变形模型常数的建议。结果表明,必要的实验集应该包括复杂应力状态的实验,其中大多数在技术上是无法实现的。在作者2021年的另一篇论文中,利用归一化应力张量空间,将变形势以准线性形式表示,在材料的正交异性主轴上构造,用于确定常数,这足以用于最简单的实验数据。除了引入势的明显优点外,它也有一个缺点,那就是用误差最小的直接射线代替实际的非线性图。尽管准线性势的无条件充分性,但这种近似水平的使用会导致定量误差。因此,本文提出了复合材料的简化非线性状态方程,用最简单的实验就足以确定复合材料的材料函数。这些方程基于力学的一般定律,在此基础上,考虑到德鲁克约束,计算了碳-石墨复合材料的材料多项式常数。
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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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ИНСТРУМЕНТЫ ЦИФРОВИЗАЦИИ В ПРАКТИКЕ ПРОЕКТИРОВАНИЯ ПРИ РЕКОНСТРУКЦИИ ПОДЗЕМНЫХ ТРУБОПРОВОДОВ БЕСТРАНШЕЙНЫМИ МЕТОДАМИ РАСЧЕТНАЯ МОДЕЛЬ ДЕФОРМИРОВАНИЯ ГРУНТОВОГО ОСНОВАНИЯ ВЫСОТНОГО ЗДАНИЯ С УЧЕТОМ ПРЕДЫСТОРИИ ЗАГРУЖЕНИЯ СОВОКУПНЫЙ РИСК ПРИ РЕАЛИЗАЦИИ КРУПНОГО КОМПЛЕКСНОГО ПРОЕКТА СТРОИТЕЛЬСТВА АТОМНОЙ ЭЛЕКТРОСТАНЦИИ НЕСУЩАЯ СПОСОБНОСТЬ СТАЛЕЖЕЛЕЗОБЕТОННЫХ СТЕН С ЛИСТОВЫМ АРМИРОВАНИЕМ НА СТАТИЧЕСКИЕ НАГРУЗКИ ANALYTICAL ANALYSIS OF COMBINED FOUNDATION PLATES, SUBJECTED TO AN ACTION OF ANTISYMMETRIC LOADS
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