Recent Advances in Theoretical and Computational Modeling of Composite Materials and Structures
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TextLanguage: English Publication details: Basel MDPI - Multidisciplinary Digital Publishing Institute 2022Description: 1 online resource (292 p.)Content type: - text
- computer
- online resource
- 9783036542614
- 9783036542621
- books978-3-0365-4262-1
- History of engineering & technology
- Technology: general issues
- 3D elasticity
- 3D shell model
- arc
- bi-directional functionally graded
- bimodular model
- bolotin scheme
- buckling
- cantilever
- Carbon-fiber-reinforced plastics (CFRPs)
- coarse-fine composite
- curved sandwich nanobeams
- dynamic stability
- dynamics modeling
- elastic foundation
- electro-optical pod
- external prestressed steel strands
- fastener
- FE-GDQ
- FG-GPL
- Fick moisture diffusion equation
- finite element analysis (FEA)
- first-principles calculation
- fractional Burgers model
- fractional calculus
- fractional Kelvin-Voigt model
- fractional Maxwell model
- fractional Poynting-Thomson model
- fractional Zener model
- functional reinforcement
- functionally graded materials
- functionally-graded materials
- gapless half metals
- GDQ
- graphene nanoplatelets
- heat transfer equation
- Heusler compounds
- higher-order shear deformable laminated beams
- higher-order shear deformation theory
- Joule heat
- layer-wise approach
- moisture content profile
- n/a
- nanocomposites
- nonlinear free vibration
- nonlocal strain gradient theory
- piezoelectric effect
- pipe flow
- porosity
- prestressed concrete cylinder pipe
- quasi-3D higher-order shear theory
- Riemann-Liouville fractional derivative
- Riemann-Liouville fractional derivative
- sandwich beams
- spin gapless semiconductor
- steady-state hygro-elastic analysis
- theoretical study
- thermal-buckling
- two-axis four-gimbal
- vibration
- viscoelasticity
- wire-breakage
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The advancement in manufacturing technology and scientific research has improved the development of enhanced composite materials with tailored properties depending on their design requirements in many engineering fields, as well as in thermal and energy management. Some representative examples of advanced materials in many smart applications and complex structures rely on laminated composites, functionally graded materials (FGMs), and carbon-based constituents, primarily carbon nanotubes (CNTs), and graphene sheets or nanoplatelets, because of their remarkable mechanical properties, electrical conductivity and high permeability. For such materials, experimental tests usually require a large economical effort because of the complex nature of each constituent, together with many environmental, geometrical and or mechanical uncertainties of non-conventional specimens. At the same time, the theoretical and/or computational approaches represent a valid alternative for designing complex manufacts with more flexibility. In such a context, the development of advanced theoretical and computational models for composite materials and structures is a subject of active research, as explored here for a large variety of structural members, involving the static, dynamic, buckling, and damage/fracturing problems at different scales.
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