UID:
edoccha_9960074181802883
Format:
1 online resource (249 p.)
Edition:
First edition.
ISBN:
0-12-804270-2
,
0-12-804228-1
Note:
Description based upon print version of record.
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Front Cover; Vibration of Functionally Graded Beams and Plates; Copyright; Contents; Chapter 1: Introduction; 1.1 Structural Beams and Plates; 1.2 Background of Composites; 1.3 Vibration Preliminaries; 1.3.1 Beam and Plate Theories; 1.3.2 Boundary Conditions; Chapter 2: Origin and Basics of Functionally Graded Structural Members; 2.1 History and Application of FG Composites; 2.2 Variation of Material Properties; 2.3 Beam and Plate Theories; 2.3.1 Higher-Order Shear Deformation Beam Theory; 2.3.2 Classical Plate Theory; 2.4 Governing Equations; 2.4.1 Vibration of FG Beam
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2.4.2 Vibration of Thin FG PlateChapter 3: Analytical and Numerical Methods; 3.1 History of Various Methods; 3.2 Analytical Methods; 3.2.1 Vibration of the FG Beam; 3.2.2 Vibration of the FG Plate; 3.3 Numerical Method(s); 3.3.1 Vibration of the FG Beam; 3.3.2 Vibration of the FG Plate; Chapter 4: Functionally Graded Beams; 4.1 Vibration of Uniform FG Beam; 4.1.1 Numerical Modeling; 4.1.2 Convergence and Comparison Studies; 4.1.3 Results and Discussions; 4.2 Concluding Remarks; Chapter 5: Vibration Problems of Functionally Graded Rectangular Plates; 5.1 Numerical Modeling
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5.2 Convergence and Comparison Studies5.3 Results and Discussions; 5.3.1 Power-Law Gradation; 5.3.2 Exponential Gradation; 5.3.2.1 Effect of Erat (= Ec/Em) With Constant ρrat (= ρc/ρm); 5.3.2.2 Effect of ρrat With Constant Erat; 5.4 Concluding Remarks; Chapter 6: Vibration Problems of Functionally Graded Elliptic Plates; 6.1 Numerical Modeling; 6.2 Convergence and Comparison Studies; 6.3 Results and Discussions; 6.4 Concluding Remarks; Chapter 7: Vibration Problems of Functionally Graded Triangular Plates; 7.1 Types of FG Triangular Elements; 7.2 Numerical Modeling
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7.3 Convergence and Comparison Studies7.4 Results and Discussions; 7.4.1 Effect of Power-Law Indices (k); 7.4.2 Effect of the Ratio of Young's Moduli (Er); 7.4.3 Effect of the Ratio of Mass Densities (ρr); 7.5 Concluding Remarks; Chapter 8: Complicating Effects; 8.1 Winkler and Pasternak Foundations; 8.1.1 Numerical Modeling; 8.1.2 Convergence and Comparison Studies; 8.1.3 Results and Discussions; 8.2 Thermal Environments; 8.2.1 Temperature Field Across the Thickness; 8.2.2 Numerical Modeling; State Under Temperature Gradient; 8.2.3 Results and Discussions; 8.3 Piezoelectricity
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8.3.1 Equilibrium EquationsFG Piezoelectric Beam; 8.3.2 Significance of Piezoelectricity; 8.4 Concluding Remarks; Chapter 9: Practical Examples and Experimental Studies; 9.1 Practical Applications; 9.2 Experimental Studies; References; Index; Back Cover
Language:
English