2020 - Member of Academia Europaea
His primary areas of study are Boundary value problem, Structural engineering, Composite material, Vibration and Mathematical analysis. The study incorporates disciplines such as Geometry, Numerical analysis and Nonlinear system in addition to Boundary value problem. His Structural engineering research integrates issues from Composite number and Actuator.
The Vibration study combines topics in areas such as Mechanics and Displacement. His work on Mathematical analysis is being expanded to include thematically relevant topics such as Eigenvalues and eigenvectors. The concepts of his Carbon nanotube study are interwoven with issues in van der Waals force, Fracture and Molecular dynamics.
K.M. Liew mainly focuses on Boundary value problem, Composite material, Vibration, Mathematical analysis and Structural engineering. His studies deal with areas such as Discretization, Geometry and Numerical analysis as well as Boundary value problem. His work in Vibration addresses issues such as Mechanics, which are connected to fields such as Classical mechanics.
His Mathematical analysis research is multidisciplinary, incorporating perspectives in Function and Galerkin method. K.M. Liew has included themes like Piezoelectricity and Nonlinear system in his Structural engineering study. K.M. Liew interconnects Carbon, van der Waals force and Molecular dynamics in the investigation of issues within Carbon nanotube.
K.M. Liew mainly focuses on Composite material, Carbon nanotube, Composite number, Structural engineering and Boundary value problem. His biological study spans a wide range of topics, including Carbon and Molecular dynamics. His Composite number research incorporates elements of Stiffness and Equations of motion.
His research in Structural engineering focuses on subjects like Piezoelectricity, which are connected to Active vibration control. His Boundary value problem research is multidisciplinary, relying on both Vibration, Aspect ratio and Nonlinear system. K.M. Liew has researched Vibration in several fields, including Mechanics and Classical mechanics.
His primary scientific interests are in Composite material, Composite number, Structural engineering, Boundary value problem and Carbon nanotube. His Composite material study frequently links to other fields, such as Equations of motion. His Composite number research incorporates themes from Transverse plane, Isotropy, Rotary inertia and Shell.
His biological study spans a wide range of topics, including Piezoelectricity, Displacement and Normal mode. His Boundary value problem research is multidisciplinary, incorporating elements of Vibration and Aspect ratio. His studies in Vibration integrate themes in fields like Power and Energy harvesting.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Static and free vibration analyses of carbon nanotube-reinforced composite plates using finite element method with first order shear deformation plate theory
Ping Zhu;Z.X. Lei;Z.X. Lei;K.M. Liew.
Composite Structures (2012)
Mechanical analysis of functionally graded carbon nanotube reinforced composites: A review
K.M. Liew;Z.X. Lei;Z.X. Lei;L.W. Zhang;L.W. Zhang.
Composite Structures (2015)
Society and civilization: An optimization algorithm based on the simulation of social behavior
T. Ray;K.M. Liew.
IEEE Transactions on Evolutionary Computation (2003)
Application of nonlocal continuum mechanics to static analysis of micro- and nano-structures
Q. Wang;K.M. Liew.
Physics Letters A (2007)
Active control of FGM plates with integrated piezoelectric sensors and actuators
X.Q. He;T.Y. Ng;S. Sivashanker;K.M. Liew.
International Journal of Solids and Structures (2001)
Buckling analysis of multi-walled carbon nanotubes: a continuum model accounting for van der Waals interaction
X.Q. He;S. Kitipornchai;K.M. Liew.
Journal of The Mechanics and Physics of Solids (2005)
On the study of elastic and plastic properties of multi-walled carbon nanotubes under axial tension using molecular dynamics simulation
K.M. Liew;X.Q. He;C.H. Wong.
Acta Materialia (2004)
Nonlocal shell model for elastic wave propagation in single- and double-walled carbon nanotubes
Yangao Hu;Kim Meow Liew;Q. Wang;Xiaoqiao He.
Journal of The Mechanics and Physics of Solids (2008)
Equilibrium configuration and continuum elastic properties of finite sized graphene
C D Reddy;S Rajendran;K M Liew.
Nanomechanics of single and multiwalled carbon nanotubes
K. M. Liew;C. H. Wong;X. Q. He;M. J. Tan.
Physical Review B (2004)
Profile was last updated on December 6th, 2021.
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