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This account of the theory of plates and shells is written primarily as a textbook for graduate students in mechanical and civil engineering.The unified treatment of shells of arbitrary shape is accomplished by tensor analysis. This useful tool is introduced in the first chapter, and no knowledge of advanced mathematical methods is required. The general theory developed in the first eight chapters is applied in the remaining part to thin elastic plates and shells with special emphasis on engineering methods and engineering applications. A number of detailed examples illustrate the theo
Shells (Engineering) --- Structural shells --- Elastic plates and shells --- Structural analysis (Engineering) --- Plates (Engineering)
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Composite materials --- -Laminated materials --- -Coating processes --- Plates (Engineering) --- Composites (Materials) --- Multiphase materials --- Reinforced solids --- Solids, Reinforced --- Two phase materials --- Materials --- Delamination --- -Congresses --- Deterioration --- Laminated materials --- Congresses. --- -Delamination
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Plates (Engineering) --- Composite materials --- Sound --- Sound pressure --- Vibration --- Noise --- Mathematical models. --- Noise --- Mathematical models. --- Transmission --- Mathematical models. --- Mathematical models. --- Mathematical models.
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Fibrous composites --- Laminated materials --- Congresses. --- -Laminated materials --- -Coating processes --- Composite materials --- Plates (Engineering) --- Fiber composites --- Fiber-reinforced composites --- Filament reinforced composites --- Reinforced fibrous composites --- Congresses --- -Congresses --- Coating processes --- Composites à fibres --- Stratifiés --- Composites à fibres. --- Stratifiés.
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Buckling (Mechanics) --- -Shells (Engineering) --- -Structural shells --- Elastic plates and shells --- Structural analysis (Engineering) --- Plates (Engineering) --- Deformations (Mechanics) --- Plasticity --- Strains and stresses --- Structural failures --- Data processing --- Shells (Engineering) --- Data processing. --- -Data processing --- Structural shells
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The boundary integral equation (BIE) method has been used more and more in the last 20 years for solving various engineering problems. It has important advantages over other techniques for numerical treatment of a wide class of boundary value problems and is now regarded as an indispensable tool for potential problems, electromagnetism problems, heat transfer, fluid flow, elastostatics, stress concentration and fracture problems, geomechanical problems, and steady-state and transient electrodynamics.In this book, the author gives a complete, thorough and detailed survey of the method. It pro
Boundary element methods. --- Dynamics. --- Eigenvalues. --- Elasticity. --- Plates (Engineering) --- Plates (Engineering). --- Disks (Mechanics) --- Panels --- Structural plates --- Elastic plates and shells --- Structural analysis (Engineering) --- Shells (Engineering) --- Dynamical systems --- Kinetics --- Mathematics --- Mechanics, Analytic --- Force and energy --- Mechanics --- Physics --- Statics --- Elastic properties --- Young's modulus --- Mathematical physics --- Matter --- Rheology --- Strains and stresses --- Strength of materials --- Matrices --- BEM (Engineering analysis) --- BIE analysis --- BIE methods --- Boundary element analysis --- Boundary elements methods --- Boundary integral equation analysis --- Boundary integral equation methods --- Boundary integral methods --- Numerical analysis --- Properties
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Finite element method --- Shells (Engineering) --- Structural shells --- Elastic plates and shells --- Structural analysis (Engineering) --- Plates (Engineering) --- FEA (Numerical analysis) --- FEM (Numerical analysis) --- Finite element analysis --- Numerical analysis --- Isogeometric analysis --- Éléments finis, Méthode des --- Finite element method. --- Éléments finis, Méthode des. --- Coques (ingénierie) --- Analyse structurale
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Transmission loss. --- Aerodynamic noise. --- Noise propagation. --- Rectangular panels. --- Integral equations. --- Plates (Engineering) --- Composite materials --- Sound --- Sound pressure --- Vibration --- Sound pressure --- Sound --- Vibration --- Noise --- Mathematical models. --- Noise --- Mathematical models. --- Transmission --- Mathematical models. --- Mathematical models. --- Mathematical models. --- Mathematical models. --- Transmission --- Mathematical models. --- Mathematical models.
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