Article
Open Access
Quasi 3-D trigonometric plate theory for bending analysis of EG plates resting on Pasternak foundations
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Ahmed F. Radwan
Published/Copyright:
July 18, 2018
Received: 2018-04-05
Accepted: 2018-04-17
Published Online: 2018-07-18
© 2018 Ashraf M. Zenkour, published by De Gruyter
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- Quasi 3-D trigonometric plate theory for bending analysis of EG plates resting on Pasternak foundations
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Creative Commons
BY-NC-ND 4.0
Articles in the same Issue
- Elastic, plastic, fracture analysis of masonry arches: A multi-span bridge case study
- Vibration characteristics of functionally graded carbon nanotube reinforced composite rectangular plates on Pasternak foundation with arbitrary boundary conditions and internal line supports
- Damping mathematical modelling and dynamic responses for FRP laminated composite plates with polymer matrix
- Active Vibration damping of Smart composite beams based on system identification technique
- Free Vibration Of Functionally Graded Carbon Nanotube Reinforced Composite Annular Sector Plate With General Boundary Supports
- On the failure behaviour to striking bow penetration of impacted marine-steel structures
- 3D FDM production and mechanical behavior of polymeric sandwich specimens embedding classical and honeycomb cores
- Free vibration of functionally graded carbon nanotube reinforced composite cylindrical panels with general elastic supports
- Exact geometry SaS solid-shell element for 3D stress analysis of FGM piezoelectric structures
- Stress evaluation in displacement-based 2D nonlocal finite element method
- Quasi 3-D trigonometric plate theory for bending analysis of EG plates resting on Pasternak foundations
- Mode switching phenomenon in geometrically nonlinear free vibration analysis of in-plane inhomogeneous plates on elastic foundation
- Investigating crashworthy single and double skin structures against accidental ship-to-ship interaction
- Bending of functionally graded plates via a refined quasi-3D shear and normal deformation theory
- Free Vibration Analysis of Single Walled Carbon Nanotube with Exponentially Varying Stiffness
- Stress and Strain Concentration Factors in Orthotropic Composites with Hole under Uniaxial Tension
- Analysis of Monolithic and Sandwich Panels Subjected To Non-Uniform Thickness-Wise Boundary Conditions
- Static Perturbation Analysis of Inclined Shallow Elastic Cables under general 3D-loads
- Free Vibration of Single Walled Carbon Nanotube Resting on Exponentially Varying Elastic Foundation
- Small size and rotary inertia effects on the natural frequencies of carbon nanotubes
