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Decay Conditions for Antiplane Shear of a High-Contrast Multi-Layered Semi-Infinite Elastic Strip

Ludmila Prikazchikova

2022Symmetry11 citationsDOIOpen Access PDF

Abstract

The antiplane shear of a semi-infinite multi-layered elastic strip with traction free faces and edges subject to prescribed stress is studied. A high contrast is assumed in the stiffnesses of two types of homogeneous isotropic layers. Explicit conditions on the edge load are derived, ensuring the decay of stress components at the distance of order strip thickness. One of these conditions corresponds to the canonical Saint-Venant’s principle, manifesting the self-equilibrium of the load. The rest of the decay conditions consider the presence of high contrast and are of an asymptotic nature, in contrast to the exact former condition. The number of asymptotic conditions is the same as that of soft layers. An example of the implementation of the proposed decay conditions for calculating the solution for the interior (outside of a boundary layer zone) domain of a three-layered semi-strip, considering geometric asymmetry, is presented.

Topics & Concepts

IsotropyAntiplane shearBoundary value problemMathematical analysisHomogeneousShear (geology)Elasticity (physics)GeometryAsymmetryTraction (geology)MathematicsContrast (vision)High contrastStress (linguistics)PhysicsStress intensity factorMaterials scienceOpticsGeologyFinite element methodComposite materialCombinatoricsLinguisticsGeomorphologyThermodynamicsPhilosophyQuantum mechanicsStructural mechanics and materialsElasticity and Wave PropagationMaterial Properties and Applications
Decay Conditions for Antiplane Shear of a High-Contrast Multi-Layered Semi-Infinite Elastic Strip | Litcius