Numerical Simulation of Experiments on Determining the Type of Initial Anisotropy of an Elastic Material

IF 0.1 Q4 MATHEMATICS, APPLIED

Uchenye Zapiski Kazanskogo Universiteta-Seriya Fiziko-Matematicheskie Nauki Pub Date : 2021-01-01 DOI:10.26907/2541-7746.2021.2.214-225

D. Khristich, D. Sukhorukov, M. Sokolova

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Abstract

The concept of canonical axes of anisotropy of the material, in which the largest number of elements of the elastic compliance tensor is equal to zero, is introduced. A program of experiments that allows one to determine the type of an anisotropic material without finding all the components of the elastic compliance tensor in an arbitrary laboratory coordinate system and, simultaneously, to detect the position of the canonical axes of anisotropy in the material is developed. A program of mechanical experiments is proposed to identify the type of initial elastic anisotropy of a material based on the results of experiments in the canonical axes of anisotropy for the case when they coincide with the axes of the laboratory coordinate system. Computer numerical simulation of the experiments is performed. The influence of experimental measurement errors on the identification results is investigated. It is shown that the developed criteria for identifying the type of material are applicable in the presence of measurement errors.

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确定弹性材料初始各向异性类型的实验数值模拟

引入了材料各向异性正则轴的概念，其中弹性柔度张量的最大单元数等于零。开发了一个实验程序，使人们能够确定各向异性材料的类型，而无需在任意实验室坐标系中找到弹性柔度张量的所有分量，同时检测各向异性规范轴在材料中的位置。提出了一种基于各向异性规范轴与实验室坐标系轴线重合情况下的实验结果来确定材料初始弹性各向异性类型的力学实验程序。对实验进行了计算机数值模拟。研究了实验测量误差对识别结果的影响。结果表明，在存在测量误差的情况下，所建立的识别材料类型的准则是适用的。

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