氢饱和动力学对钛合金球壳应力变形状态影响的研究

Q4 Engineering
Aleksander Treshchev, Violetta Kuznetsova
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引用次数: 0

摘要

本文考虑了一种可以确定VT1-0钛合金球壳应力-应变状态的数学模型,假设外载荷为横向均匀分布,作用于外表面,介质作用于球壳内表面。为此,采用了一种归一化应力空间的非线性模型。沿外壳轮廓的紧固是刚性的。得到了计算球壳的非线性解析方程。提出了一种求解钛合金壳体加氢问题的算法。利用MatLab和Maple两种软件,采用两步法对参数进行了顺序摄动求解。用有限差分法求解得到的微分方程组。考虑了含氢侵蚀介质的扩散过程,得到了壳体应力-应变状态的计算结果,并与不考虑侵蚀介质的经典非线性理论结果进行了比较。比较这些解的结果表明壳变形过程参数的定量差异,这可以通过更准确地描述应力状态类型的影响来解释。该方法具有相当灵活的机制来考虑初始和诱导的微分阻力,在复杂类型应力状态下加载大范围材料时,证明了获得的理论结果与经验数据匹配的高精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
STUDY OF THE INFLUENCE OF THE KINETICS OF HYDROGEN SATURATION ON THE STRESS-DEFORMED STATE OF A SPHERICAL SHELL MADE FROM TITANIUM ALLOY
In this paper, a mathematical model is considered that allows one to determine the stress-strain state of a spherical shell made of titanium alloy VT1-0, the external load is assumed to be transverse uniformly distributed, acting on the outer surface, the medium is assumed to act on the inner surface of the shell. For this, a nonlinear model was used, presented in normalized stress spaces. Fastening along the contour of the shell is rigid. Nonlinear resolving equations for calculating a spherical shell are obtained. An algorithm for solving the problem of hydrogenation of titanium alloy shells has been developed. A practical solution was made by a two-step method of sequential perturbations of parameters using the MatLab and Maple software packages. To solve the system of the obtained differential equations, the method of finite differences is applied. The calculation of the stress-strain state of the shell is obtained taking into account the diffusion process of an aggressive hydrogen-containing medium, and the obtained solution is compared with the results of the classical nonlinear theory without taking into account the aggressive medium. The results of comparing these solutions demonstrate quantitative differences in the parameters of the shell deformation process, which are explained by a more accurate account of the influence of the type of stress state. This approach has a rather flexible mechanism for considering the initial and induced differential resistance, demonstrates a high accuracy of matching the obtained theoretical results with empirical data on loading a wide range of materials under complex types of stress state.
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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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