Quasi Static Fracture – Global Minimizer of the Regularized Energy
p.97
p.97
Analysis on the Friction Performance of the Bionic Surface with the Convex Domes for Increasing Friction
p.102
p.102
Evaluation of Delamination in Drilling Rice Husk Reinforced Polyester Composites
p.106
p.106
The Element Free Galerkin Method for Fully Developed, Open-Channel Magnetohydrodynamic Flow
p.111
p.111
Dynamic Response of an Electro-Rheological Sandwich Beam with Different Elastic Layers Subjected to Simultaneous Impact Loads
p.117
p.117
Design of a Microstrip Antenna Based on the Magnetoelectric Composite Material
p.122
p.122
Thermophysical Properties of Nanoparticles-Phase Change Material Compositions for Thermal Energy Storage
p.127
p.127
Architectural Application of Smart Materials for Non-Flexible Structures Made by Flexible Formworks
p.132
p.132
Smart Surveillance System Detection Using PCA- Based Feature Extraction
p.137
p.137
Dynamic Response of an Electro-Rheological Sandwich Beam with Different Elastic Layers Subjected to Simultaneous Impact Loads
Abstract:
Dynamic response of an electro-rheological sandwich beam subjected to simultaneous Impact loads will be considered. Analytical solution will be used to draw FRF diagram of the beam for different electric field. Upper and lower layers of the beam have different material properties. Coupled governing equations derived from Hamilton Principle will be solved in frequency domain to find transverse vibration of the beam.
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Periodical:
Applied Mechanics and Materials (Volume 232)
Pages:
117-121
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Online since:
November 2012
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© 2012 Trans Tech Publications Ltd. All Rights Reserved
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