Steady-state heat distribution in bimaterial with an interface crack. I
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Publication:2337152
DOI10.1134/S096554251906006XzbMath1433.35017OpenAlexW2955270827MaRDI QIDQ2337152
A. S. Chernikova, A. S. Ryabenko, A. V. Glushko
Publication date: 19 November 2019
Published in: Computational Mathematics and Mathematical Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1134/s096554251906006x
Heat equation (35K05) Laplace operator, Helmholtz equation (reduced wave equation), Poisson equation (35J05)
Related Items (2)
Steady-state heat distribution in bimaterial with an interface crack. II ⋮ Unsteady heat conduction problem for a plane with a crack at the interface between two inhomogeneous materials
Cites Work
- Analysis of direct boundary-domain integral equations for a mixed BVP with variable coefficient. I: Equivalence and invertibility
- Localized boundary-domain integral formulations for problems with variable coefficients
- An anti-plane crack perpendicular to the weak/micro-discontinuous interface in a bi-FGM structure with exponential and linear non-homogeneities
- Study of steady-state heat distribution in a plane with a crack in the case of variable internal thermal conductivity
- Heat distribution in a plane with a crack with a variable coefficient of thermal conductivity
- Analysis of Some Localized Boundary–Domain Integral Equations for Transmission Problems with Variable Coefficients
- Analysis of Segregated Boundary–Domain Integral Equations for Mixed Variable-Coefficient BVPs in Exterior Domains
- On Green's function for a three–dimensional exponentially graded elastic solid
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