Modelling of Generalised Thermoelastic Wave Propagation of Multilayer Material under Thermal Shock Behaviour
Release time:2019-03-11
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First Author:
Guo, Pan
Correspondence Author:
Wu, WH (reprint author), Dalian Univ Technol, Fac Vehicle Engn & Mech, Dept Engn Mech, State Key Lab Struct Anal Ind Equipment, Dalian 116024, Peoples R China.
Co-author:
Wu, Wen-Hua,Zhao, Jun
Date of Publication:
2017-01-01
Journal:
SHOCK AND VIBRATION
Included Journals:
SCIE、EI
Document Type:
J
Volume:
2017
ISSN No.:
1070-9622
Abstract:
This paper describes a time-discontinuous Galerkin finite elementmethod (DGFEM-beta(c)) for the generalised thermoelastic problem of multilayer materials subjected to a transient high-frequency heat source. The governing and constitutive relations are presented on the basis of the well-known Lord-Shulman (L-S) theory. A DGFEM-beta(c) method is developed to allow the general temperaturedisplacement vector and its temporal gradient to be discontinuous at a fixed time... A stiffness proportional artificial damping term is added to the final DG discretisation form to filter out the spurious numerical oscillations in the wave-after stage and at adjacentlayer interfaces. The numerical results show that the present DGFEM-beta(c) provides much more accurate solutions for generalised thermoelastic coupled behaviour of multilayer structures. Compared with widely used traditional numerical methods (e. g., the Newmark method), the present DGFEM-beta(c) can effectively capture the discontinuities behaviours of impulsive waves in space in the simulation of high modes and sharp gradients.
Translation or Not:
no
