CRC Press, Woodhead Publishing Limited and Maney Publishing
Limited, 2007, 480 pages
A concise review of the most recent research and how it can be used in the field, with a panel of distinguished editors and a team of inteational contributors, this book is an invaluable reference source. It discusses the modeling of plates for effects such as transverse shear deformation and rotary inertia, assembly of plates in forming thin-walled members, and changing material properties in composite, laminated and functionally graded plates. It includes discussions of recent techniques for linear and nonlinear vibration analysis and concludes with a hybrid strategy suitable for parameter identification of plated structures and hydroelastic analysis of floating plated structures.
This volume comprises 14 chapters. Each chapter may be read independently from the other chapters and the chapters contain adequate introductory material so that an engineering graduate who has a basic understanding of structural dynamics and plates will be able to follow it.
Dynamic behaviour of tapered beams
GBT-based local and global vibration analysis of thin-walled members
Dynamics of nonprismatic thin-walled hybrid composite members of generic cross-section
Least squares finite difference method for vibration analysis of plates
Analytical p-elements for vibration of plates/plated structures
The extended Kantorovich method for vibration analysis of plates
A closed-form approach to modeling and dynamic analysis of beams, plates and shell
Vibrations of plates with abrupt changes in properties
Relationships between vibration frequencies of higher-order plate theories and classical thin plate theory
Free vibration analysis of functionally graded eramic-metal plates
Differential quadrature element method for vibration analysis of plates
Nonlinear vibration and transient analysis of hybrid laminated plates
A hybrid strategy for parameter identification of plated structures
Hydroelastic analysis of floating plated structures
A concise review of the most recent research and how it can be used in the field, with a panel of distinguished editors and a team of inteational contributors, this book is an invaluable reference source. It discusses the modeling of plates for effects such as transverse shear deformation and rotary inertia, assembly of plates in forming thin-walled members, and changing material properties in composite, laminated and functionally graded plates. It includes discussions of recent techniques for linear and nonlinear vibration analysis and concludes with a hybrid strategy suitable for parameter identification of plated structures and hydroelastic analysis of floating plated structures.
This volume comprises 14 chapters. Each chapter may be read independently from the other chapters and the chapters contain adequate introductory material so that an engineering graduate who has a basic understanding of structural dynamics and plates will be able to follow it.
Dynamic behaviour of tapered beams
GBT-based local and global vibration analysis of thin-walled members
Dynamics of nonprismatic thin-walled hybrid composite members of generic cross-section
Least squares finite difference method for vibration analysis of plates
Analytical p-elements for vibration of plates/plated structures
The extended Kantorovich method for vibration analysis of plates
A closed-form approach to modeling and dynamic analysis of beams, plates and shell
Vibrations of plates with abrupt changes in properties
Relationships between vibration frequencies of higher-order plate theories and classical thin plate theory
Free vibration analysis of functionally graded eramic-metal plates
Differential quadrature element method for vibration analysis of plates
Nonlinear vibration and transient analysis of hybrid laminated plates
A hybrid strategy for parameter identification of plated structures
Hydroelastic analysis of floating plated structures