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Full Description
This book analyses the multifield behaviour of doubly-curved shells made of anisotropic and advanced materials. These materials include fiber reinforced composite materials, carbon nanotubes, variable angle tow composites, honeycomb cells, anisogrid, and functionally graded materials.
Taking into account the three different approaches to studying the mechanical and multifield behaviour of anisotropic doubly-curved shell structures, the book comprehensively explains the mathematic steps necessary to each method based on curvilinear principal coordinates. Furthermore, an isogeometric mapping technique is illustrated to investigate arbitrarily-shaped structures. The modelling strategies presented in the book are three-dimensional elasticity theory, along with the Equivalent Single Layer and the Layer-Wise approach. The book focuses on Higher-order Shear Deformation Theories (HSDTs) with unified formulation, and it introduces also classical theories like the Kirchoff-Love theory and the First-order Shear Deformation Theory (FSDT). It also illustrates strong and weak formulations of the governing equations of motion and provides numerical results for several structural components as examples.
Relevant to studies in plates and shells, advanced materials, multifield analysis, vibration and stress, the book is the ideal companion for engineers and students in the area of structural, applied and computational mechanics.
Contents
1 Main Shell Structures and Elements of Differential Geometry. 2 Fundamental Equations in Principal Curvilinear Coordinates. 3 Higher-order Shear Deformation Theories: Strong Formulation. 4 Higher-order Shear Deformation Theories: Weak Formulation. 5 Numerical applications: Dynamic and Static Analyses. 6 Higher-order Nonlinear Elastic Theory of Doubly-Curved Shells. 7 Higher-order Shear Deformation Theories: Layer-Wise Approach. 8 First-Order Shear Deformation Theories. 9 Theory of Composite Thin Shells. 10 Theory of Composite Arches and Beams
