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Humid-thermal environment influence on dispersion of waves in sigmoid poroelastic cylindrical panels resting on sinusoidal elastic foundation
(Informa UK Limited, 2025-04-25)
Hu, Yuanchao
;
An, Yunzhu
;
Hu, Shangmao
;
Mostafa Habibi
;
Guo, Lei
Despite to great potential of poroelastic materials, the number of dynamic investigations on poroelastic materials is limited., in this article, the influence of humid-thermal environment on bulk wave propagation behavior of sigmoid poroelastic shells resting on sinusoidal elastic foundation is examined. In order to calculate the effective properties of poroelastic shell structure made of titanium and alumina, the improved sigmoid power-law homogenization scheme is employed. Kinetic relations of poroelastic shell structure are developed based on first-order shear deformable theory. Then, Hamilton’s principle has been implemented to obtain the governing equations and harmonic functions are utilized to solve the derived equations.
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Extending a higher-order foldability constitutive model for dynamic response analysis of 3D-reinforced shell of deformable
(Springer Science and Business Media LLC, 2025-01-20)
Xizhu Li
;
Ling Luo
;
Mostafa Habibi
;
Luyao Wang
This analytical paper investigates application of a novel higher-order shear deformable mathematical model for investigating vibrational analysis of a doubly curved shell in which the kinematic relations are extended using the variable-thickness transverse deflection. The Hamiltonian method is extended to derive the governing motions equations in the curvilinear coordinate system. The constitutive relations are extended using the experimental and statistical relations in the literature for a copper matrix including various amount of three-dimensional graphene nanofillers named as graphene origami using hydrogenation process. The analytical results are presented using the mathematical model in order to trace the impact of graphene origami characteristics and geometric parameters of the double-curved shell. The temperature-dependency relations for material properties as well as folding and content are employed for investigating the impact of affecting parameters. The results are presented with and without thickness stretching effect to arrive at a more confidence results.
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Analytical Modeling of Thermo-Electro-Mechanical Stresses in Smart Origami-Reinforced Plates Under Axial and Torsional Loading
(World Scientific Pub Co Pte Ltd, 2025-04-05)
Minge Yang
;
Junyi He
;
Qiqing Yue
;
Siwei Chen
;
Mostafa Habibi
This paper investigates the application of a novel foldable material in the sandwich plate subjected to multi-field loading. The analytical formulation is derived using the virtual work principle. The stretchable kinematic modeling is extended in order to arrive at more accurate results and modeling. The constitutive relations of the sandwich-reinforced core are derived using the overall and effective material properties of graphene origami-reinforced core using the Halpin-Tsai micromechanical model. The analytical solution is obtained in order to present the parametric results in terms of characteristics of the 3D nanofillers and multi-field loading parameters.
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A Hybrid Intelligent Model for Deformation/Strain/Stress Analyses of Sandwich Double Curved Piezoelectric Shells
(World Scientific Pub Co Pte Ltd, 2025-03-28)
Jining Li
;
Yunzhu An
;
Mostafa Habibi
;
Aihui Wen
;
Ming Ma
This analytical paper investigates the impact of initial electric potential as well as graphene origami characteristics on the deformable/foldable behavior of the sandwich double curved shell composed of a graphene origami-reinforced copper core sandwich by intelligent layers at top/bottom as sensor, actuator and energy harvester. The stretched and foldable model is extended for the description of the kinematic and constitutive relations, respectively. The variational-based formulation is extended for the derivation of the governing equations. The solution procedure is extended for the special boundary conditions to seek the impact of multi-field loading and material constituent characteristics on the electro-thermo-folding responses of the sandwich hybrid shell. As a quantitative result, one can arrive at 10% decrease in deflection with 2% addition of graphene origami reinforcement.
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Static analysis of 2D-FG nonlocal porous tube using gradient strain theory and based on the first and higher-order beam theory
(2023)
Xiaozhong Zhang
;
Jianfeng Li
;
Yan Cui
;
Mostafa Habibi
;
H. Elhosiny Ali
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Static analysis of foldable pressurized and thermally loaded cylindrical shell as an expander in sport equipment reinforced by G-Ori nanofillers
(Informa UK Limited, 2024-10-08)
Hongjie Zhang
;
Mostafa Habibi
;
Yunhe Zou
The present work investigates stress, strain and deformation analyses of a shear deformable cylindrical shell manufactures by a Copper (Cu) core reinforced with graphene origami auxetic metamaterial subjected to mechanical and thermal loads. The cylindrical models can be used in sport equipment especially in expander component. The effective material properties of the graphene origami auxetic reinforced Cu matrix are developed using micromechanical models cooperate both material properties of graphene and Cu in terms of local temperature, volume fraction and folding degree. The principle of virtual work is used to derive governing equations with accounting thermal loading.
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Multi-load effect on the deformation analysis of composite nano reinforced origami sandwich panel
(Informa UK Limited, 2024-06-19)
Cizhen Yu
;
Peng Lin
;
Zhixin Wu
;
Mostafa Habibi
;
Wei Zhang
Graphene origami in a copper matrix is used as a composition of core in a sandwich panel between two piezoelectric/piezomagnetic layers. More accurate modeling of the composite sandwich structure is performed using a higher-order model including thickness stretching term. Principle of virtual work is used in order to derive governing equations in terms of resultant components of force and moment as well as electromagnetic loads. The resultant components are derived in higher-order framework with accounting electric and magnetic potentials using the effective material properties of graphene origami in Halpin-Tsai and rule of mixture framework. The deformation/strain/stress components are analytically obtained in terms of thermal, mechanical, electrical, and magnetic loads as well as folding degree and content of graphene origami. Verification is performed for justification of the numerical results. A foldability dependent parametric analysis is presented to show controllability of stress, strain and deformations along the thickness direction.
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On the dispersion of bulk wave in hygrothermally affected poroelastic gymnastics beams based on refined higher-order shear deformation theory during athlete training
(Informa UK Limited, 2024-12-02)
Kun Zhu
;
Wenyou Ma
;
Jiyuan Dong
;
Mingzong Chen
;
Mostafa Habibi
Poroelastic materials have gained prominence due to their beneficial characteristics, prompting the authors to investigate their behavior in wave propagation. Additionally, the balance beam used in gymnastics is a classic example of a beam structure. It is designed to support the weight of the gymnast while providing stability and strength. This paper focuses on analyzing wave dispersion behavior in a hygrothermally excited poroelastic gymnastics beam. It is considered that the beam is made of a composition of Alumina and Aluminum as ceramic and metallic phases, respectively. Initially, the basic characteristics are determined using an improved power-law homogenization scheme. Subsequently, a poroelastic beam is modeled based on a refined higher-order shear deformation theory, and based on it and Hamilton’s principle, the kinetic relations are obtained. The obtained governing equations are then solved through analytical schemes using harmonic functions, and the outcomes are presented. These results are afterward verified through comprehensive comparisons with existing literature. Furthermore, this paper findings shows that the phase velocity and wave frequency of the beam are influenced by gradient parameters, porosity, and environmental factors like temperature and humidity to gain further insights.
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Smart analysis of sandwich foldable cylinders as gymnastic accessories
(Informa UK Limited, 2024-10-08)
Le Wang
;
Mostafa Habibi
;
G. Huang
A novel smart analysis of sandwich composite cylindrical shell is presented in this article. It is assumed that the sandwich shell is manufactured from the graphene origami reinforced copper core between two intelligent layers. The proposed structure in this article can be used as an idealized model for cylinder shapes in gymnastic sport and physical therapy units. The virtual work principle in the piezo elasticity framework and the cylindrical coordinate system is extended to derive governing equations. To arrive at more accurate results, a third order shear deformable model is extended for kinematic relations. The electro elastic responses are explored using the analytical method to seek impact of main parameters of the composite structure such as foldability parameter, graphene content percent, and applied electric potential on the electro elastic strain, deformation and stress results.
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Application of G-Ori metamaterials as sports equipment baseball bat in an electro-magneto-elastic sandwich composite beam
(Informa UK Limited, 2024-10-15)
Jiahao Zhu
;
Yi Wang
;
Ning An
;
Mostafa Habibi
;
H. Wang
We, the Editor and Publisher of Mechanics of Advanced Materials and Structures, have retracted the following article: Zhu, J., Wang, Y., An, N., Habibi, M., & Wang, H. Application of G-Ori metamaterials as sports equipment baseball bat in an electro-magneto-elastic sandwich composite beam. Mechanics of Advanced Materials and Structures. 2024. 1–20. Following publication, it has come to our attention that the authorship list for this manuscript was significantly changed after the submission of the article. We identified additional concerns regarding the relevance of certain references within the article. We queried the authors regarding the references and the authorship, and while they responded, they did not fully address the concerns. As a result, the Editor and the Publisher no longer have confidence in the content presented. As determining authorship and verifying the validity of published work is core to the integrity of the scholarly record, we are therefore retracting the article. The corresponding author listed in this publication has been informed. We have been informed in our decision-making by our editorial policies and the COPE guidelines. The retracted article will remain online to maintain the scholarly record, but it will be digitally watermarked on each page as “Retracted”.

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