Some results in Moore‐Gibson‐Thompson thermoelasticity of dipolar bodies
Marín Marín, Andreas Öchsner, M. M. Bhatti
2020ZAMM ‐ Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik153 citationsDOI
Abstract
Abstract We consider the mixed initial‐boundary value problem in the context of the Moore‐Gibson‐Thompson theory of thermoelasticity for dipolar bodies. We consider the case of heat conduction with dissipation. Even if the elasticity tensors are not supposed to be positively defined, we have proven both, the uniqueness and the instability of the solution of the mixed problem. In the case that the mass density and the thermal conductivity tensor are positive, we obtain the uniqueness of the solution using some Lagrange type identities.
Topics & Concepts
UniquenessThermal conductionElasticity (physics)Boundary value problemContext (archaeology)DipoleDissipationMathematical analysisTensor (intrinsic definition)MathematicsThermal conductivityInstabilityPhysicsClassical mechanicsPure mathematicsMechanicsThermodynamicsGeologyQuantum mechanicsPaleontologyThermoelastic and Magnetoelastic PhenomenaComposite Material MechanicsElasticity and Material Modeling