His scientific interests lie mostly in Material properties, Composite material, Buckling, Plate theory and Mechanics. His Material properties study incorporates themes from Vibration, Boundary value problem, Structural engineering, Stiffness and Volume fraction. His study looks at the relationship between Composite material and fields such as Thermal, as well as how they intersect with chemical problems.
His Buckling research includes elements of Singular perturbation, Axial symmetry, Shell and Bifurcation. His studies deal with areas such as Piezoelectricity, Orthotropic material, Transverse plane, Bending of plates and Thermal conduction as well as Plate theory. His Mechanics research is multidisciplinary, relying on both Geometry and Classical mechanics.
His primary areas of study are Material properties, Composite material, Buckling, Structural engineering and Thermal. His work carried out in the field of Material properties brings together such families of science as Vibration, Plate theory, Volume fraction, Stiffness and Equations of motion. In his research, Molecular dynamics is intimately related to Graphene, which falls under the overarching field of Composite material.
Hui-Shen Shen has included themes like Singular perturbation, Mechanics, Boundary layer and Shell in his Buckling study. His Structural engineering study integrates concerns from other disciplines, such as Dimensionless quantity, Fiber-reinforced composite, Piezoelectric sensor, Piezoelectricity and Numerical analysis. His study in Thermal is interdisciplinary in nature, drawing from both Kinematics, Differential equation and Bifurcation.
Hui-Shen Shen focuses on Composite material, Material properties, Thermal, Poisson's ratio and Composite number. Many of his studies on Composite material involve topics that are commonly interrelated, such as Vibration. His Material properties research incorporates elements of Singular perturbation, Plate theory, Equations of motion and Graphene.
His Equations of motion course of study focuses on Stiffness and Contact force. His Composite number study combines topics in areas such as Structural engineering, Foundation, Interfacial stress and Carbon nanotube. Hui-Shen Shen interconnects Differential equation and Boundary layer in the investigation of issues within Structural engineering.
His main research concerns Composite material, Material properties, Thermal, Equations of motion and Graphene. His studies in Composite material integrate themes in fields like Singular perturbation and Kinematics. His Material properties research incorporates themes from Beam and Plate theory.
His research investigates the connection between Thermal and topics such as Composite number that intersect with problems in Buckling and Structural engineering. The concepts of his Equations of motion study are interwoven with issues in Vibration, Mechanics and Deflection. His Graphene research focuses on subjects like Nanocomposite, which are linked to Transverse plane and Bifurcation.
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Nonlinear bending of functionally graded carbon nanotube-reinforced composite plates in thermal environments
Composite Structures (2009)
Thermal buckling and postbuckling behavior of functionally graded carbon nanotube-reinforced composite plates
Hui-Shen Shen;Chen-Li Zhang.
Materials & Design (2010)
Nonlinear vibration and dynamic response of functionally graded plates in thermal environments
Xiao-Lin Huang;Hui-Shen Shen.
International Journal of Solids and Structures (2004)
Postbuckling of nanotube-reinforced composite cylindrical shells in thermal environments, Part I: Axially-loaded shells
Composite Structures (2011)
Dynamic response of initially stressed functionally graded rectangular thin plates
J. Yang;Hui-Shen Shen.
Composite Structures (2001)
VIBRATION CHARACTERISTICS AND TRANSIENT RESPONSE OF SHEAR-DEFORMABLE FUNCTIONALLY GRADED PLATES IN THERMAL ENVIRONMENTS
J. Yang;H.-S. Shen.
Journal of Sound and Vibration (2002)
Thermal buckling and postbuckling behavior of functionally graded carbon nanotube-reinforced composite cylindrical shells
Composites Part B-engineering (2012)
Nonlocal plate model for nonlinear vibration of single layer graphene sheets in thermal environments
Le Shen;Hui-Shen Shen;Chen-Li Zhang.
Computational Materials Science (2010)
Nonlinear bending response of functionally graded plates subjected to transverse loads and in thermal environments
International Journal of Mechanical Sciences (2002)
Non-linear analysis of functionally graded plates under transverse and in-plane loads
J. Yanga;Hui-Shen Shen.
International Journal of Non-linear Mechanics (2003)
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