Zhong You mostly deals with Structural engineering, Geometry, Kinematics, Deployable structure and Linkage. His work on Stiffness and Finite element method as part of general Structural engineering study is frequently connected to Software deployment and Rod, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them. His work carried out in the field of Geometry brings together such families of science as Hinge, Derivative and Topology.
His work deals with themes such as Engineering structures, Mathematics of paper folding and Position, which intersect with Kinematics. His study in Deployable structure is interdisciplinary in nature, drawing from both Grid, Overconstrained mechanism, Equilateral triangle and Arch. His Linkage study combines topics from a wide range of disciplines, such as Single degree of freedom, Mechanism, Revolute joint and Closure.
Zhong You mainly investigates Structural engineering, Stiffness, Topology, Composite material and Kinematics. His Structural engineering study integrates concerns from other disciplines, such as Tube and Computer simulation. His Stiffness research is multidisciplinary, incorporating elements of Folding, Deformation and Metamaterial.
His Topology research includes themes of Frame and Linkage. His work on Energy absorption, Composite number, Polymer and Honeycomb is typically connected to Stacking as part of general Composite material study, connecting several disciplines of science. His biological study spans a wide range of topics, including Transformation, Singularity, Polyhedron and Jacobian matrix and determinant.
His primary scientific interests are in Stiffness, Metamaterial, Energy absorption, Structural engineering and Composite material. His Stiffness research is multidisciplinary, relying on both Mechanical engineering, Folding, Deformation and Braid. The study incorporates disciplines such as Soft robotics, Kinematics, Deformation and Topology in addition to Metamaterial.
His studies examine the connections between Energy absorption and genetics, as well as such issues in Finite element method, with regards to Bonding strength, Honeycomb structure and Geometric design. Many of his research projects under Structural engineering are closely connected to Collision with Collision, tying the diverse disciplines of science together. His Tube study in the realm of Composite material interacts with subjects such as Stacking.
His primary areas of investigation include Energy absorption, Metamaterial, Quasistatic process, Tube and Composite material. Zhong You combines subjects such as Optics, Dynamic loading, Mechanical engineering, Specific energy absorption and Buckling with his study of Energy absorption. His Metamaterial research incorporates elements of Acoustics, Compression, Feature and Modulation.
He incorporates a variety of subjects into his writings, including Quasistatic process, Crash box, Structural engineering and Mechanics. He has researched Crash box in several fields, including Kinetic energy, Computer simulation, Plastic hinge and Reaction. The concepts of his Tube study are interwoven with issues in Composite number, Collapse mode, Reduction and Diamond.
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Self-deployable origami stent grafts as a biomedical application of Ni-rich TiNi shape memory alloy foil
Kaori Kuribayashi;Koichi Tsuchiya;Zhong You;Dacian Tomus.
Materials Science and Engineering A-structural Materials Properties Microstructure and Processing (2006)
Origami of thick panels
Yan Chen;Rui Peng;Zhong You.
Foldable bar structures
Z. You;S. Pellegrino.
International Journal of Solids and Structures (1997)
Energy Absorption of Thin-Walled Square Tubes With a Prefolded Origami Pattern—Part I: Geometry and Numerical Simulation
Jiayao Ma;Zhong You.
Journal of Applied Mechanics (2014)
Threefold-symmetric Bricard linkages for deployable structures
Yan Chen;Zhong You;Tibor Tarnai.
International Journal of Solids and Structures (2005)
Folding and deployment of curved tape springs
K.A. Seffen;Z. You;S. Pellegrino.
International Journal of Mechanical Sciences (2000)
Energy absorption of axially compressed thin-walled square tubes with patterns
Xiong Zhang;Gengdong Cheng;Zhong You;Hui Zhang.
Thin-walled Structures (2007)
Miura-Base Rigid Origami: Parameterizations of First-Level Derivative and Piecewise Geometries
Joseph M. Gattas;Weina Wu;Zhong You.
Journal of Mechanical Design (2013)
Modelling rigid origami with quaternions and dual quaternions
Weina Wu;Zhong You.
Proceedings of The Royal Society A: Mathematical, Physical and Engineering Sciences (2010)
Large deformation and energy absorption of additively manufactured auxetic materials and structures: A review
Jianjun Zhang;Jianjun Zhang;Guoxing Lu;Zhong You.
Composites Part B-engineering (2020)
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