<p>The problem of tensile loading in a&#xa0;transversely isotropic body with a&#xa0;healed penny-shaped crack is formulated within the framework of the δ<sub><i>c</i></sub>-model. By utilizing the general solution of the body equilibrium equations, expressed in terms of harmonic functions, along with a&#xa0;Winkler-type model, the problem is reduced to solving an integral equation governing the displacement of points on the crack surface. An analytical solution to the integral equation is derived based on certain assumptions and validated through finite element method (FEM) simulations. This solution enables the development of a&#xa0;simplified engineering formula for evaluating the effectiveness of crack reinforcement using injection technology.</p>

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Limiting equilibrium state of a transversely isotropic body with a healed penny-shaped crack

  • V. P. Sylovanyuk,
  • D. V. Rudavskyi,
  • V. O. Melnyk

摘要

The problem of tensile loading in a transversely isotropic body with a healed penny-shaped crack is formulated within the framework of the δc-model. By utilizing the general solution of the body equilibrium equations, expressed in terms of harmonic functions, along with a Winkler-type model, the problem is reduced to solving an integral equation governing the displacement of points on the crack surface. An analytical solution to the integral equation is derived based on certain assumptions and validated through finite element method (FEM) simulations. This solution enables the development of a simplified engineering formula for evaluating the effectiveness of crack reinforcement using injection technology.