Impact of in-plane follower force on the frequency response of the hybrid angle-ply laminated system via dynamic simulation and generalized differential quadrature framework

Central concern of this article is presenting the high-exactitude analysis on hygro-thermo-mechanical vibration of three-phase multi-scale hybrid composite angle-ply laminated rectangular plate (MHCALRP) for different couples of boundary conditions within the context of twelve-variable refined highe...

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Bibliographic Details
Published in:Engineering with computers Vol. 38; no. Suppl 5; pp. 3743 - 3760
Main Authors: Liu, Wenjian, Deng, Lianbing, Cai, Zhiming, Li, Daming, Rahimi, Alireza
Format: Journal Article
Language:English
Published: London Springer London 01.12.2022
Springer Nature B.V
Subjects:
Boundary conditions
CAE) and Design
Calculus of Variations and Optimal Control; Optimization
Carbon
Chemical vapor deposition
Classical Mechanics
Comparative studies
Composite materials
Computer Science
Computer-Aided Engineering (CAD
Control
Differential equations
Engineering
Equations of motion
Frequency response
Generalized differential quadrature method
Graphene
Homogenization
Hybrid composites
Hybrid systems
Kinematics
Math. Applications in Chemistry
Mathematical and Computational Engineering
Mechanical properties
Nanocomposites
Original Article
Quadratures
Rectangular plates
Shear deformation
Shear strain
Systems Theory
Thermal environments
Thermomechanical analysis
Thick plates
Vibration analysis
GDQM
Multiscale hybrid angle-ply laminated composite
Rectangular plate
Halpin–Tsai homogenization
In-plane follower force
Hygro-thermal environment
ISSN:0177-0667, 1435-5663
Online Access:Get full text
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Summary:Central concern of this article is presenting the high-exactitude analysis on hygro-thermo-mechanical vibration of three-phase multi-scale hybrid composite angle-ply laminated rectangular plate (MHCALRP) for different couples of boundary conditions within the context of twelve-variable refined higher order shear deformation theory (RHOSDT12). Defining the kinematics of the system according to RHOSDT12 is the essential step toward achieving sufficient accuracy in elucidation of vibrational behavior of moderately thick plates. Mechanical properties of MHCALRP are calculated through two-step Halpin–Tsai homogenization process. Numerical solution to the governing differential motion equations is acquired by implementing generalized Differential quadrature method (GDQM). Accuracy of the employed approach is evaluated by a comparative study with the published studies. As a practical conclusion it is revealed that the orientation angle of the macrofibres can effectively compensate the lack of nano reinforcement as well as the absence of extensional load to overcome negative impacts of hygrothermal environment in an affordable cost. The influence of extensional load along two directions, nano/macro scale reinforcements and hygro-thermal environment on the vibrational response of the MHCALRP is completely elucidated through the parametric investigation.
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ISSN:0177-0667
1435-5663
DOI:10.1007/s00366-020-01215-4