His primary scientific interests are in Buckling, Classical mechanics, Nonlinear system, Mathematical analysis and Instability. His Buckling research includes themes of Elastic instability, Shell, Deflection, Buckle and Mechanics. His studies deal with areas such as Space, Solid mechanics, Theme and Differential equation as well as Classical mechanics.
Giles W Hunt interconnects Fractal, Quadratic form and Kinetic energy in the investigation of issues within Nonlinear system. Giles W Hunt combines subjects such as Elasticity, Hyperelastic material, Arruda–Boyce model and Strain energy density function with his study of Mathematical analysis. His work in Instability addresses issues such as Displacement, which are connected to fields such as Upper and lower bounds, Statistical physics and Sensitivity.
Buckling, Nonlinear system, Structural engineering, Bifurcation and Mathematical analysis are his primary areas of study. His Buckling research is multidisciplinary, incorporating elements of Mechanics, Geometry, Axial symmetry and Compression. While the research belongs to areas of Mechanics, Giles W Hunt spends his time largely on the problem of Shell, intersecting his research to questions surrounding Critical load.
His work carried out in the field of Nonlinear system brings together such families of science as Instability, Classical mechanics, Differential equation, Numerical analysis and Overburden pressure. His Bifurcation research includes elements of Calculus, Applied mathematics and Catastrophe theory. His work deals with themes such as State, Potential energy and Homoclinic orbit, which intersect with Mathematical analysis.
His main research concerns Nonlinear system, Buckling, Mechanics, Geometry and Axial symmetry. His Nonlinear system research incorporates themes from Mathematical analysis, Crystal structure, Potential energy, Classical mechanics and Overburden pressure. Buckling is a subfield of Composite material that Giles W Hunt studies.
Giles W Hunt is interested in Instability, which is a field of Mechanics. Giles W Hunt studied Geometry and Free boundary problem that intersect with Deformation. The concepts of his Axial symmetry study are interwoven with issues in Shell, Cylinder and Dimple.
His scientific interests lie mostly in Buckling, Composite material, Shear band, Instability and Curvature. His Buckling research is multidisciplinary, relying on both Wrinkle and Slipping. His study in the field of Composite laminates and Delamination is also linked to topics like Critical condition.
His Shear band study combines topics from a wide range of disciplines, such as Nonlinear system, Bifurcation, Force chain, Classical mechanics and Mechanics. His study in Classical mechanics is interdisciplinary in nature, drawing from both Waviness, Bending stiffness, Structural mechanics, Boundary value problem and Critical load. His Curvature research integrates issues from Lagrange multiplier, Gravitational singularity and Deformation.
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A general theory of elastic stability
J. M. T. Thompson;G. W. Hunt.
Elastic instability phenomena
J. M. T. Thompson;G. W. Hunt;Viggo Tvergaard.
Cellular Buckling in Long Structures
GW Hunt;MA Mark Peletier;AR Champneys;PD Woods.
Nonlinear Dynamics (2000)
Structural localization phenomena and the dynamical phase-space analogy
G. W. Hunt;H. M. Bolt;John Michael Tutill Thompson.
Proceedings of The Royal Society A: Mathematical, Physical and Engineering Sciences (1989)
Hyperelastic constitutive modeling under finite strain
Mario M Attard;Giles W Hunt.
International Journal of Solids and Structures (2004)
Twist buckling and the foldable cylinder: an exercise in origami
Giles W. Hunt;Ichiro Ario.
International Journal of Non-linear Mechanics (2005)
Localization and mode interaction in sandwich structures
Giles W Hunt;M A Wadee.
Proceedings of The Royal Society A: Mathematical, Physical and Engineering Sciences (1998)
Out-of-plane ply wrinkling defects during consolidation over an external radius
Tim Dodwell;Richard Butler;Giles Hunt.
Composites Science and Technology (2014)
Comparative lagrangian formulations for localized buckling
Giles W Hunt;M K Wadee.
Proceedings of The Royal Society A: Mathematical, Physical and Engineering Sciences (1991)
Towards a unified bifurcation theory
John M. T. Thompson;Giles W. Hunt.
Zeitschrift für Angewandte Mathematik und Physik (1975)
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