Closure of parallel cracks: micromechanical estimates versus finite element computations
DOI10.1016/j.euromechsol.2020.103952zbMath1477.74099OpenAlexW3001357266WikidataQ126305832 ScholiaQ126305832MaRDI QIDQ2307783
Eric Lemarchand, Joffrey Bluthé, Benoît Bary
Publication date: 25 March 2020
Published in: European Journal of Mechanics. A. Solids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.euromechsol.2020.103952
homogenization theorycrack closureMori-Tanaka methodstrain concentrationthree-dimensional finite element simulation
Brittle fracture (74R10) Finite element methods applied to problems in solid mechanics (74S05) Micromechanics of solids (74M25) Effective constitutive equations in solid mechanics (74Q15)
Cites Work
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- Comparison of the non-interaction and differential schemes in predicting the effective elastic properties fractured media
- Micromechanical approach to the coupling between permeability and damage
- Effective elastic properties of fractured rocks: dynamic vs. static considerations
- Elastic solids with many cracks: a simple method of analysis
- The differential scheme and its application to cracked materials
- Elastic moduli of a cracked solid
- The behavior of a flat elliptical crack in an anisotropic elastic body
- Effective elastic moduli of two-dimensional solids with multiple cracks
- The effect of spatial distribution on the effective behavior of composite materials and cracked media
- The numerical calculation of two-dimensional effective moduli for microcracked solids
- A numerical simulation for effective elastic moduli of plates with various distributions and sizes of cracks
- The determination of the elastic field of an ellipsoidal inclusion, and related problems
- Fourth-rank tensors of the thirty-two crystal classes: multiplication tables
- An explicit and universally applicable estimate for the effective properties of multiphase composites which accounts for inclusion distribution
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