具有任意形状空腔的弹性半空间的应力-应变状态

IF 3.4 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
E. A. Kalentev
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引用次数: 4

摘要

提出了研究任意形状空腔周围应力集中的解析方法。该方法基于这样的假设:通过在解中加入虚拟力,可以模拟空腔对内力重分布的影响。为了确定应力-应变状态,使用了作用在腔表面的附加力。这些力的大小是根据通过被检测表面限制腔体体积的应力张量流的值来选择的。本文研究了最一般的三维情况:具有立方腔的弹性半空间在集中力作用下的应力-应变状态。所得结果与用有限元法求解类似问题的结果进行了全面比较。构造了这些空腔附近应力张量分量的分布。对所提出的计算模型的精度和效率进行了估计;确定了所提解的适用范围。似乎有希望有利地利用结构材料资源,即在腔体系统中创建所需的形状和尺寸,以在关键点处获得应力减小,从而提高产品的强度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Stress-strain state of an elastic half-space with a cavity of arbitrary shape

Stress-strain state of an elastic half-space with a cavity of arbitrary shape

Analytical method for studying stress concentration around arbitrary shape cavity is proposed.

The method is based on the assumption that it is possible to simulate the influence of cavity on the redistribution of internal forces by including fictitious forces in the solution. To determine the stress-strain state, additional forces acting on cavity surface are used. The magnitude of these forces is chosen on the basis of the value of stress tensor flow through the examined surfaces limiting cavity volume.

Research of stress-strain state for the most general three-dimensional case is done: an elastic half-space with a cubic shape cavity under action of a concentrated force applied to a free surface. The obtained results are comprehensively compared with the solution of a similar problem by the finite element method. Distributions of the stress tensor components in the vicinity of these cavities are constructed. The estimation of accuracy and efficiency of the proposed calculation model is made; the boundary of applicability of the proposed solution is determined.

It seems promising to use the resource of structural materials advantageously, namely, creating in the bodies of the cavity system the required shape and size, to obtain stress reduction at critical points, thereby increasing the strength of the product.

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来源期刊
CiteScore
8.60
自引率
0.00%
发文量
1
审稿时长
13 weeks
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