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Quantitative characterization of stress concentration in the presence of closely spaced hard inclusions in two-dimensional linear elasticity

by H. Kang and S. Yu

(Report number 2017-30)

Abstract
In the region between close-to-touching hard inclusions, the stress may be arbitrarily large as the inclusions get closer. The stress is represented by the gradient of a solution to the Lam\'{e} system of linear elasticity. We consider the problem of characterizing the gradient blow-up of the solution in the narrow region between two inclusions and estimating its magnitude. We introduce singular functions which are constructed in terms of nuclei of strain and hence are solutions of the Lam\'{e} system, and then show that the singular behavior of the gradient in the narrow region can be precisely captured by singular functions. As a consequence of the characterization, we are able to regain the existing upper bound on the blow-up rate of the gradient, namely, \(\epsilon^{-1/2}\) where \(\epsilon\) is the distance between two inclusions. We then show that it is in fact an optimal bound by showing that there are cases where \(\epsilon^{-1/2}\) is also a lower bound on the gradient blow-up. This work is the first to completely reveal the singular nature of the gradient blow-up in the context of the Lam\'{e} system with hard inclusions. The singular functions introduced in this paper play essential roles to overcome the difficulties in the methods of previous works. Main tools of this paper are the layer potential techniques and the variational principle. The variational principle can be applied because the singular functions of this paper are solutions of the Lam\'{e} system.

Keywords: stress concentration, gradient blow-up, closely spaced inclusions, hard inclusion, Lam\'{e} system, linear elasticity, high contrast, optimal bound, singular functions, nuclei of strain

BibTeX

@Techreport{KY17_726,
  author = {H. Kang and S. Yu},
  title = {Quantitative characterization of stress concentration in the presence of closely spaced hard inclusions in two-dimensional linear elasticity},
  institution = {Seminar for Applied Mathematics, ETH Z{\"u}rich},
  number = {2017-30},
  address = {Switzerland},
  url = {https://www.sam.math.ethz.ch/sam_reports/reports_final/reports2017/2017-30.pdf },
  year = {2017}
}

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First published: July 2017 (PDF)file_download

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