Nonlinear dynamic behavior of viscoelastic sandwich composite plates under non-uniform blast load: Theory and experiment

In this paper, the dynamic behavior of a viscoelastic sandwich composite plate subjected to the non-uniform blast load is investigated. The theoretical and experimental study is carried out. The plate examined has carbon/epoxy face sheets and an aramid honeycomb core. In the theoretical study, the s...

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Bibliographic Details
Published in:International journal of impact engineering 2014-10, Vol.72, p.85-104
Main Authors: Balkan, Demet, Mecitoğlu, Zahit
Format: Article
Language:English
Subjects:
Blast loads
Dynamic tests
Galerkin's method
Kelvin-Voigt model
Manufacturing composite plates
Mathematical analysis
Mathematical models
Non-uniform blast load
Nonlinear dynamics
Nonlinearity
Vibration
Viscoelasticity
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Summary:In this paper, the dynamic behavior of a viscoelastic sandwich composite plate subjected to the non-uniform blast load is investigated. The theoretical and experimental study is carried out. The plate examined has carbon/epoxy face sheets and an aramid honeycomb core. In the theoretical study, the sandwich plate is modeled using first order shear deformation theory. Because of the large deformations which occurred after the blast load in some tests, geometrical nonlinearities are considered in the derivations. The shear and large deflection effects are considered. The equations of motion are derived by the use of virtual work principle for the sandwich plate. The clamped boundary conditions are considered for all edges of the plate. The viscoelastic properties of carbon/epoxy coupons and sandwich coupons are determined using Dynamic Mechanical Analyzer. The viscoelastic behavior is modeled by using the Kelvin-Voigt linear viscoelastic theory. The equations of motion are obtained in the time domain using Galerkin's method. The nonlinear coupled equation system is solved by Mathematica Software. A special experimental setup is used to obtain the blast pressure for the blast test. The experimental, theoretical and finite element analysis results are compared and the vibration characteristics, peak points, vibration frequencies are found to be in an agreement. •A new non-uniform pressure function is offered for the theoretical studies.•Two types of sandwich plates were produced for the blast load experiments.•A special experimental setup was used for the blast tests.•First order shear deformation theory was used in order to derive equation of motion.•Normal strains obtained from the experiment were compared with theoretical results.
ISSN:0734-743X
1879-3509
DOI:10.1016/j.ijimpeng.2014.05.003