Mark A. Bradford mainly focuses on Structural engineering, Buckling, Finite element method, Composite number and Beam. His study brings together the fields of Composite material and Structural engineering. His Buckling research integrates issues from Instability, Arche, Arch, Torsion and Buckle.
Mark A. Bradford has included themes like Flange, I-beam, Shear, Curvature and Cantilever in his Finite element method study. The Composite number study which covers Slip that intersects with Yield surface, Stress resultants and Shear stress. His research integrates issues of Limit state design and Composite construction in his study of Stiffness.
Structural engineering, Buckling, Finite element method, Composite number and Composite material are his primary areas of study. His Structural engineering study is mostly concerned with Beam, Arch, Stiffness, Slab and Shear. His studies in Arch integrate themes in fields like Mechanics, Instability, Virtual work and Bifurcation.
His Buckling research includes themes of Elasticity, Bending, Compression and Buckle. His Finite element method study combines topics from a wide range of disciplines, such as Residual stress, Cantilever, Mathematical analysis and Slip. His research investigates the connection with Composite number and areas like Shrinkage which intersect with concerns in Deflection.
His primary scientific interests are in Structural engineering, Buckling, Composite number, Finite element method and Composite material. Stiffness, Arch, Slab, Beam and Precast concrete are subfields of Structural engineering in which his conducts study. He has researched Beam in several fields, including Flange and Bending moment.
The concepts of his Buckling study are interwoven with issues in Residual stress, Brace, High strength steel, Welding and Yield. His biological study spans a wide range of topics, including Bending, Service life, Deflection and Shear. Mark A. Bradford focuses mostly in the field of Finite element method, narrowing it down to matters related to Shear and, in some cases, Shear force and Bearing capacity.
His scientific interests lie mostly in Structural engineering, Finite element method, Composite number, Slab and Composite material. His study in Beam, Stiffness, Buckling, Precast concrete and Shear are all subfields of Structural engineering. His Beam study combines topics in areas such as Ductility, Ultimate tensile strength and Bending moment.
His studies in Buckling integrate themes in fields like Circular arch, Arch, Brace, Flexural rigidity and Yield. His study explores the link between Finite element method and topics such as Stress that cross with problems in Orthotropic material. In his work, Composite construction and Material properties is strongly intertwined with Service life, which is a subfield of Composite number.
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Composite Steel and Concrete Structural Members: Fundamental Behaviour
D. J. Oehlers;M. A. Bradford.
The Behaviour and Design of Steel Structures to EC3
N.S. Trahair;M.A. Bradford;David Nethercot;Leroy Gardner.
In-plane stability of arches
Yong Lin Pi;M. A Bradford;Brian Uy.
International Journal of Solids and Structures (2002)
Elementary Behaviour of Composite Steel and Concrete Structural Members
Deric J. Oehlers;Mark A. Bradford.
Elastic local buckling of steel plates in composite steel-concrete members
Brian Uy;M. A Bradford.
Engineering Structures (1996)
In-Plane Elastic Stability of Arches under a Central Concentrated Load
M. A. Bradford;B. Uy;Y.-L. Pi.
Journal of Engineering Mechanics-asce (2002)
Lateral-Distortional buckling of steel I—Section members
Journal of Constructional Steel Research (1992)
Bending, buckling and vibration of size-dependent functionally graded annular microplates
Liao-Liang Ke;Liao-Liang Ke;Jie Yang;Sritawat Kitipornchai;Mark Andrew Bradford.
Composite Structures (2012)
Numerical simulation of steel pretensioned bolted end-plate connections of different types and details
Gang Shi;Yongjiu Shi;Yuanqing Wang;Mark A. Bradford.
Engineering Structures (2008)
Experimental investigation of the overall buckling behaviour of 960 MPa high strength steel columns
Huiyong Ban;Huiyong Ban;Gang Shi;Yongjiu Shi;Mark A. Bradford.
Journal of Constructional Steel Research (2013)
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