Consistent derivation of stress-based generalized models in elastodynamics: Application to layerwise plate models

Consistent derivation of stress-based generalized models in elastodynamics: Application to layerwise plate models

The derivation of some class of generalized mechanical models relies on a specific stress expansion without any a priori assumption on the corresponding kinematics. In such situations, their extension to a dynamic setting is not easy, especially when deriving the corresponding generalized inertias s...

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Veröffentlicht in:International journal of solids and structures 2022-01, Vol.234-235, p.111077, Article 111077
Hauptverfasser: Bouteiller, Paul, Bleyer, Jeremy, Sab, Karam
Format: Artikel
Sprache:eng
Schlagworte:
Derivation
Elastodynamics
Generalized continuum
Kinematics
Laminates
Layerwise plate model
Materials and structures in mechanics
Mechanics
Modal analysis
Multilayered plates
Physics
Stress-based model
Variational principle
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Zusammenfassung:The derivation of some class of generalized mechanical models relies on a specific stress expansion without any a priori assumption on the corresponding kinematics. In such situations, their extension to a dynamic setting is not easy, especially when deriving the corresponding generalized inertias since the kinematics is unknown. This paper shows how consistent generalized inertias can be obtained through the use of a complementary energy principle in elastodynamics. The methodology is then applied to extend a stress-based layerwise plate model in the dynamic setting. This approach is finally validated through modal analysis of various anisotropic composite laminates.
ISSN:0020-7683
1879-2146
DOI:10.1016/j.ijsolstr.2021.111077