On an Alternative Approach for Mixed Boundary Value Problems for the Lamé System

IF 1.8 3区 工程技术 Q2 ENGINEERING, MULTIDISCIPLINARY Journal of Elasticity Pub Date : 2023-03-09 DOI:10.1007/s10659-023-10004-1
David Natroshvili, Tornike Tsertsvadze
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Abstract

We consider a special approach to investigate a mixed boundary value problem (BVP) for the Lamé system of elasticity in the case of three-dimensional bounded domain \(\varOmega \subset \mathbb{R}^{3}\), when the boundary surface \(S=\partial \varOmega \) is divided into two disjoint parts, \(S_{D}\) and \(S_{N}\), where the Dirichlet and Neumann type boundary conditions are prescribed respectively for the displacement vector and stress vector. Our approach is based on the potential method. We look for a solution to the mixed boundary value problem in the form of linear combination of the single layer and double layer potentials with densities supported respectively on the Dirichlet and Neumann parts of the boundary. This approach reduces the mixed BVP under consideration to a system of pseudodifferential equations which do not contain neither extensions of the Dirichlet or Neumann data, nor the Steklov–Poincaré type operator. Moreover, the right hand sides of the resulting pseudodifferential system are vectors coinciding with the Dirichlet and Neumann data of the problem under consideration. The corresponding pseudodifferential matrix operator is bounded and coercive in the appropriate \(L_{2}\)-based Bessel potential spaces. Consequently, the operator is invertible, which implies the unconditional unique solvability of the mixed BVP in the Sobolev space \([W^{1}_{2}(\varOmega )]^{3}\) and representability of solutions in the form of linear combination of the single layer and double layer potentials with densities supported respectively on the Dirichlet and Neumann parts of the boundary. Using a special structure of the obtained pseudodifferential matrix operator, it is also shown that the operator is invertible in the \(L_{p}\)-based Besov spaces with \(\frac{4}{3} < p < 4\), which under appropriate boundary data implies \(C^{\alpha }\)-Hölder continuity of the solution to the mixed BVP in the closed domain \(\overline{\varOmega }\) with \(\alpha =\frac{1}{2}-\varepsilon \), where \(\varepsilon >0\) is an arbitrarily small number.

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lam系统混合边值问题的一种替代方法
我们考虑了一种特殊的方法来研究三维有界域\(\varOmega \subset \mathbb{R}^{3}\)情况下lam弹性系统的混合边值问题(BVP),当边界表面\(S=\partial \varOmega \)被分成两个不相交的部分\(S_{D}\)和\(S_{N}\),其中位移矢量和应力矢量分别规定了Dirichlet和Neumann型边界条件。我们的方法是基于势法。我们寻找混合边值问题的解,其形式是单层势和双层势的线性组合,密度分别支持在边界的Dirichlet和Neumann部分。该方法将考虑的混合BVP简化为不包含Dirichlet或Neumann数据扩展的伪微分方程系统,也不包含steklov - poincar型算子。此外,所得到的伪微分系统的右侧是与所考虑问题的狄利克雷和诺伊曼数据相一致的向量。相应的伪微分矩阵算子在适当的\(L_{2}\)基贝塞尔势空间中是有界的和强制的。因此,算子是可逆的,这意味着混合BVP在Sobolev空间\([W^{1}_{2}(\varOmega )]^{3}\)中具有无条件的唯一可解性,以及在边界的Dirichlet和Neumann部分分别支持密度的单层和双层势的线性组合形式的解的可表示性。利用所得到的伪微分矩阵算子的一种特殊结构,还证明了该算子在含有\(\frac{4}{3} < p < 4\)的\(L_{p}\) -based Besov空间中是可逆的,这意味着在适当的边界数据下,含有\(\alpha =\frac{1}{2}-\varepsilon \)的封闭域\(\overline{\varOmega }\)内混合BVP的解具有\(C^{\alpha }\) -Hölder的连续性,其中\(\varepsilon >0\)是一个任意小的数。
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来源期刊
Journal of Elasticity
Journal of Elasticity 工程技术-材料科学:综合
CiteScore
3.70
自引率
15.00%
发文量
74
审稿时长
>12 weeks
期刊介绍: The Journal of Elasticity was founded in 1971 by Marvin Stippes (1922-1979), with its main purpose being to report original and significant discoveries in elasticity. The Journal has broadened in scope over the years to include original contributions in the physical and mathematical science of solids. The areas of rational mechanics, mechanics of materials, including theories of soft materials, biomechanics, and engineering sciences that contribute to fundamental advancements in understanding and predicting the complex behavior of solids are particularly welcomed. The role of elasticity in all such behavior is well recognized and reporting significant discoveries in elasticity remains important to the Journal, as is its relation to thermal and mass transport, electromagnetism, and chemical reactions. Fundamental research that applies the concepts of physics and elements of applied mathematical science is of particular interest. Original research contributions will appear as either full research papers or research notes. Well-documented historical essays and reviews also are welcomed. Materials that will prove effective in teaching will appear as classroom notes. Computational and/or experimental investigations that emphasize relationships to the modeling of the novel physical behavior of solids at all scales are of interest. Guidance principles for content are to be found in the current interests of the Editorial Board.
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