Construction of homogeneous solutions of the torsion problem for a radially inhomogeneous transversely isotropic cylinder

Q3 Mathematics
N. Akhmedov
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引用次数: 0

Abstract

The torsion problem for a radially inhomogeneous transversely isotropic cylinder of small thickness was investigated by the method of asymptotic integration of elasticity theory equations. It is assumed that the side part of the cylinder is stress-free, and boundary conditions are set at the ends of the cylinder, leaving the cylinder in equilibrium. The elastic moduli are thought to be arbitrary continuous functions of the variable along the cylinder radius. The formulated boundary value problem is reduced to a spectral problem containing a small parameter characterizing the thin-walledness of the cylinder. Homogeneous solutions are built, i.e. any solutions of the equilibrium equation satisfying the condition of no stresses on the side surfaces. It is shown that the solution of the torsion problem consists of a penetrating solution and a boundary layer character solution similar to Saint-Venant's edge effect in the theory of inhomogeneous plates. The penetrating solution determines the internal stress-strain state of a radially inhomogeneous cylinder. The stress state determined by the penetrating solution is equivalent to the torsional moments of stresses acting in the cross-section perpendicular to the cylinder axis. Solutions having the boundary layer character are localized at the ends of the cylinder and decrease exponentially with distance from the ends. These solutions are absent in applied shell theories. Asymptotic formulas for displacement and stresses are built, which make it possible to calculate the three-dimensional stress-strain state of a radially inhomogeneous transversely isotropic cylinder of small thickness. Based on the obtained asymptotic expansions, it is possible to assess the applicability of applied theories and build a refined applied theory for radially inhomogeneous cylindrical shells
构建径向不均匀横向各向同性圆柱体扭转问题的同质解
采用弹性理论方程的渐近积分法研究了厚度较小的径向不均匀横向各向同性圆柱体的扭转问题。假设圆柱体侧面无应力,在圆柱体两端设置边界条件,使圆柱体处于平衡状态。弹性模量被认为是沿圆柱体半径变量的任意连续函数。所提出的边界值问题被简化为一个谱问题,其中包含一个表征圆柱体薄壁特性的小参数。建立了均质解,即平衡方程的任何解都满足侧表面无应力的条件。研究表明,扭转问题的解包括一个穿透解和一个边界层特征解,类似于非均质板理论中的 Saint-Venant 边缘效应。穿透解确定了径向不均匀圆柱体的内部应力应变状态。穿透解确定的应力状态等同于作用在垂直于圆柱体轴线的横截面上的应力的扭转力矩。具有边界层特征的解集中在圆柱体的两端,并随着与两端距离的增加呈指数递减。这些解法在应用的壳理论中是不存在的。通过建立位移和应力的渐近公式,可以计算小厚度径向不均匀横向各向同性圆柱体的三维应力应变状态。根据所获得的渐近展开式,可以评估应用理论的适用性,并为径向非均质圆柱壳建立完善的应用理论
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
Eastern-European Journal of Enterprise Technologies
Eastern-European Journal of Enterprise Technologies Mathematics-Applied Mathematics
CiteScore
2.00
自引率
0.00%
发文量
369
审稿时长
6 weeks
期刊介绍: Terminology used in the title of the "East European Journal of Enterprise Technologies" - "enterprise technologies" should be read as "industrial technologies". "Eastern-European Journal of Enterprise Technologies" publishes all those best ideas from the science, which can be introduced in the industry. Since, obtaining the high-quality, competitive industrial products is based on introducing high technologies from various independent spheres of scientific researches, but united by a common end result - a finished high-technology product. Among these scientific spheres, there are engineering, power engineering and energy saving, technologies of inorganic and organic substances and materials science, information technologies and control systems. Publishing scientific papers in these directions are the main development "vectors" of the "Eastern-European Journal of Enterprise Technologies". Since, these are those directions of scientific researches, the results of which can be directly used in modern industrial production: space and aircraft industry, instrument-making industry, mechanical engineering, power engineering, chemical industry and metallurgy.
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