Stretchable-thickness model for dynamic responses of graphene origami reinforced badminton sport plate
W Wang, J Zhang, M Habibi… - Mechanics of Advanced …, 2024 - Taylor & Francis
In this article, we organize a stretchable-thickness model to present a frequency analysis for
a composite plate applicable in badminton court which is reinforced with origami graphene …
a composite plate applicable in badminton court which is reinforced with origami graphene …
Rotordynamic analyses with variable-kinematic beam and shell finite elements
This work investigates the dynamic response of various rotating cylindrical structures using
low-and high-fidelity one-dimensional (1D) and two-dimensional (2D) finite element models …
low-and high-fidelity one-dimensional (1D) and two-dimensional (2D) finite element models …
Mechanism study and power transmission feature of acoustically stimulated and thermally loaded composite shell structures with double curvature
Because of the modification in environmental conditions, thermal stresses may induce
dynamic instability in a composite shell model. Therefore, according to the double Fourier …
dynamic instability in a composite shell model. Therefore, according to the double Fourier …
Quasi-P wave through orthotropic piezo-thermoelastic materials subject to higher order fractional and memory-dependent derivatives
This study uses the triple-phase lag model to investigate how higher-order fractional order
and memory-dependent derivatives affect reflection at the free surface of an orthotropic …
and memory-dependent derivatives affect reflection at the free surface of an orthotropic …
Nonlinear and linearized vibration analysis of plates and shells subjected to compressive loading
The present work provides a numerical model for carrying out virtual Vibration Correlation
Technique (VCT) for computing the buckling load, identifying the natural frequencies …
Technique (VCT) for computing the buckling load, identifying the natural frequencies …
Carrera unified formulation (CUF) for the shells of revolution. Numerical evaluation
Here, higher order models of elastic shells of revolution are developed using the variational
principle of virtual power for 3-D equations of the linear theory of elasticity and generalized …
principle of virtual power for 3-D equations of the linear theory of elasticity and generalized …
Accurate stress analysis of variable angle tow shells by high-order equivalent-single-layer and layer-wise finite element models
New concepts of lightweight components are conceived nowadays thanks to the advances
in the manufacture of composite structures. For instance, mature technologies such as …
in the manufacture of composite structures. For instance, mature technologies such as …
Numerical simulation of deployable ultra-thin composite shell structures for space applications and comparison with experiments
In the present article, the geometrical nonlinear behavior of deployable booms undergoing
large displacements and rotations is investigated. The triangular rollable and collapsible …
large displacements and rotations is investigated. The triangular rollable and collapsible …
Influence of fiber misalignments on buckling performance of variable stiffness composites using layerwise models and random fields
Additive manufacturing brought to the emergence of a new class of fiber-reinforced
materials; namely, the Variable Angle Tow (VAT) composites. Automated fiber placement …
materials; namely, the Variable Angle Tow (VAT) composites. Automated fiber placement …
Buckling and fundamental frequency optimization of tow-steered composites using layerwise structural models
Variable-angle-tow (VAT) composite laminates can eventually improve the mechanical
performance of lightweight structures by taking advantage of a larger design space …
performance of lightweight structures by taking advantage of a larger design space …