Structural Analysis of Polymeric Composite Materials

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Opis: Structural Analysis of Polymeric Composite Materials - Mark E. Tuttle

Structural Analysis of Polymeric Composite Materials, Second Edition introduces the mechanics of composite materials and structures and combines classical lamination theory with macromechanical failure principles for prediction and optimization of composite structural performance. It addresses topics such as high-strength fibers, manufacturing techniques, commercially available compounds, and the behavior of anisotropic, orthotropic, and transversely isotropic materials and structures subjected to complex loading. Emphasizing the macromechanical (structural) level over micromechanical issues and analyses, this unique book integrates effects of environment at the outset to establish a coherent and updated knowledge base. In addition, each chapter includes example problems to illustrate the concepts presented. Simplifying complicated equations, this book helps engineers to: Calculate the stresses near elliptical holes in multi-angle composite laminates induced by an arbitrary combination of in-plane loads-information new to this edition Determine the axial stiffness and flexural rigidity of thin-walled composite beams Understand the effect of external loading, temperature variation, and moisture on composite materials Predict transverse deflections and buckling response of multi-angle composite laminates Study failure of multi-angle composite laminates due to monotonic fatigue loadings Analyze stress and strains induced by the combined effects of stress, temperature, and moisture Praise for the First Edition "This book is characterized by pedagogical features, which facilitate understanding of the exposed subjects. The author provides a wide variety of numerical analyses and examples throughout each chapter and details on the use of easily accessible computer programs ... as solutions to the problems presented in the text. ... [A] good reference for undergraduate and postgraduate students, but also for the industrials in the area of polymeric composites." - Cellulose Chemistry and Technology, May-August, 2005Introduction Basic Definitions Polymeric Materials Fibrous Materials Commerically Available Forms Manufacturing Processes Scope of This Book Review of Force, Stress, and Strain Tensors The Force Vector Transformation of a Force Vector Normal Forces, Shear Forces, and Free-Body Diagrams Definition of Stress The Stress Tensor Transformation of the Stress Tensor Principal Stresses Plane Stress Definition of strain The Strain Tensor Transformation of the Strain Tensor Principal Strains Strains within a Plane Perpendicular to a Principal Strain Direction Relating Strains to Displacement Fields Computer Programs 3DROTATE and 2DROTATE Homework Problems Material Properties Material Properties of Anisotropic versus Isotropic Materials Material Properties That Relate Stress to Strain Material Properties Relating Temperature to Strain Material Properties Relating Moisture Content to Strain Material Properties Relating Stress or Strain to Failure Predicting Elastic Composite Properties Based on Constituents: The Rule of Mixtures Homework Problems Elastic Response of Anisotropic Materials Strains Induced by Stress: Anisotropic Materials Strains Induced by Stress: Orthotropic and Transversely Isotropic Materials Strains Induced by a Change in Temperature or Moisture Content Strains Induced by Combined Effects of Stress, Temperature, and Moisture Homework Problems Unidirectional Composite Laminates Subject to Plane Stress Unidirectional Composites Referenced to the Principal Material Coordinate System Unidirectional Composites Referenced to an Arbitrary Coordinate System Calculating Transformed Properties Using Material Invariants Effective Elastic Properties of a Unidirectional Composite Laminate Failure of Unidirectional Composites Referenced to the Principal Material Coordinate System Failure of Unidirectional Composites Referenced to an Arbitrary Coordinate System Computer Programs UNIDIR and UNIFAIL Homework Problems Thermomechanical Behavior of Multiangle Composite Laminates Definition of a "Thin Plate" and Allowable Plate Loadings Plate Deformations: The Kirchhoff Hypothesis Principal Curvatures Standard Methods of Describing Composite Laminates Calculating Ply Strains and Stresses Classical Lamination Theory Simplifications Due to Stacking Sequence Summary of CLT Calculations Effective Properties of a Composite Laminate Transformation of the ABD Matrix Computer Program CLT Comparing Classical Lamination Theory and Finite- Element Analyses Free Edge Stresses Homework Problems Predicting Failure of a Multiangle Composite Laminate Preliminary Discussion Estimating Laminate Failure Strengths Using CLT First-Ply Failure Envelopes Computer Programs LAMFAIL and PROGDAM Homework Problems Composite Beams Preliminary Discussion Comparing Classical Lamination Theory to Isotropic Beam Theory Types of Composite Beams Considered Effective Axial Rigidity of Rectangular Composite Beams Effective Flexural Rigidities of Rectangular Composite Beams Effective Axial and Flexural Rigidities for Thin-Walled Composite Beams Statically Determinate and Indeterminate Axially Loaded Composite Beams Statically Determinate and Indeterminate Transversely Loaded Composite Beams Computer Program BEAM Homework Problems Stress Concentrations Near an Elliptical Hole Preliminary Discussion Summary of the Savin Solution for an Anisotropic Plate with Elliptical Hole Circular Holes in Unidirectional Laminates Elliptical Holes with an Aspect Ratio of Three in Unidirectional Laminates Circular Holes in Multiangle Laminates Computer Program HOLES Homework Problems The Governing Equations of Thin-Plate Theory Preliminary Discussion The Equations of Equilibrium for Symmetric Laminates Boundary Conditions Representing Arbitrary Transverse Loads as a Fourier Series Some Exact Solutions for Specially Orthotropic Laminates Equations of Equilibrium for a Specially Orthotropic Laminate In-Plane Displacement Fields in Specially Orthotropic Laminates Specially Orthotropic Laminates Subject to Simple Supports of Type S1 Specially Orthotropic Laminates Subject to Simple Supports of Type S4 Specially Orthotropic Laminates with Two Simply Supported Edges of Type S1 and Two Edges of Type S2 The Navier Solution Applied to a Specially Orthotropic Laminate Subject to Simple Supports of Type S4 Buckling of Rectangular Specially Orthotropic Laminates Subject to Simple Supports of Type S4 Thermal Buckling of Rectangular Specially Orthotropic Laminates Subject to Simple Supports of Type S1 Computer Program SPORTHO Some Approximate Solutions for Symmetric Laminates Preliminary Discussion In-Plane Displacement Fields Potential Energy in a Thin Composite Plate Symmetric Composite Laminates Subject to Simple Supports of Type S4 Buckling of Symmetric Composite Plates Subject to Simple Supports of Type S4 Computer Program SYMM Appendix A: Experimental Methods Used to Measure In-Plane Elastic Properties Appendix B: Tables of Beam Deflections and Slopes Index


Szczegóły: Structural Analysis of Polymeric Composite Materials - Mark E. Tuttle

Tytuł: Structural Analysis of Polymeric Composite Materials
Autor: Mark E. Tuttle
Producent: CRC Press Inc.
ISBN: 9781439875124
Rok produkcji: 2012
Ilość stron: 668
Oprawa: Twarda
Waga: 1.05 kg


Recenzje: Structural Analysis of Polymeric Composite Materials - Mark E. Tuttle

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Structural Analysis of Polymeric Composite Materials

Structural Analysis of Polymeric Composite Materials, Second Edition introduces the mechanics of composite materials and structures and combines classical lamination theory with macromechanical failure principles for prediction and optimization of composite structural performance. It addresses topics such as high-strength fibers, manufacturing techniques, commercially available compounds, and the behavior of anisotropic, orthotropic, and transversely isotropic materials and structures subjected to complex loading. Emphasizing the macromechanical (structural) level over micromechanical issues and analyses, this unique book integrates effects of environment at the outset to establish a coherent and updated knowledge base. In addition, each chapter includes example problems to illustrate the concepts presented. Simplifying complicated equations, this book helps engineers to: Calculate the stresses near elliptical holes in multi-angle composite laminates induced by an arbitrary combination of in-plane loads-information new to this edition Determine the axial stiffness and flexural rigidity of thin-walled composite beams Understand the effect of external loading, temperature variation, and moisture on composite materials Predict transverse deflections and buckling response of multi-angle composite laminates Study failure of multi-angle composite laminates due to monotonic fatigue loadings Analyze stress and strains induced by the combined effects of stress, temperature, and moisture Praise for the First Edition "This book is characterized by pedagogical features, which facilitate understanding of the exposed subjects. The author provides a wide variety of numerical analyses and examples throughout each chapter and details on the use of easily accessible computer programs ... as solutions to the problems presented in the text. ... [A] good reference for undergraduate and postgraduate students, but also for the industrials in the area of polymeric composites." - Cellulose Chemistry and Technology, May-August, 2005Introduction Basic Definitions Polymeric Materials Fibrous Materials Commerically Available Forms Manufacturing Processes Scope of This Book Review of Force, Stress, and Strain Tensors The Force Vector Transformation of a Force Vector Normal Forces, Shear Forces, and Free-Body Diagrams Definition of Stress The Stress Tensor Transformation of the Stress Tensor Principal Stresses Plane Stress Definition of strain The Strain Tensor Transformation of the Strain Tensor Principal Strains Strains within a Plane Perpendicular to a Principal Strain Direction Relating Strains to Displacement Fields Computer Programs 3DROTATE and 2DROTATE Homework Problems Material Properties Material Properties of Anisotropic versus Isotropic Materials Material Properties That Relate Stress to Strain Material Properties Relating Temperature to Strain Material Properties Relating Moisture Content to Strain Material Properties Relating Stress or Strain to Failure Predicting Elastic Composite Properties Based on Constituents: The Rule of Mixtures Homework Problems Elastic Response of Anisotropic Materials Strains Induced by Stress: Anisotropic Materials Strains Induced by Stress: Orthotropic and Transversely Isotropic Materials Strains Induced by a Change in Temperature or Moisture Content Strains Induced by Combined Effects of Stress, Temperature, and Moisture Homework Problems Unidirectional Composite Laminates Subject to Plane Stress Unidirectional Composites Referenced to the Principal Material Coordinate System Unidirectional Composites Referenced to an Arbitrary Coordinate System Calculating Transformed Properties Using Material Invariants Effective Elastic Properties of a Unidirectional Composite Laminate Failure of Unidirectional Composites Referenced to the Principal Material Coordinate System Failure of Unidirectional Composites Referenced to an Arbitrary Coordinate System Computer Programs UNIDIR and UNIFAIL Homework Problems Thermomechanical Behavior of Multiangle Composite Laminates Definition of a "Thin Plate" and Allowable Plate Loadings Plate Deformations: The Kirchhoff Hypothesis Principal Curvatures Standard Methods of Describing Composite Laminates Calculating Ply Strains and Stresses Classical Lamination Theory Simplifications Due to Stacking Sequence Summary of CLT Calculations Effective Properties of a Composite Laminate Transformation of the ABD Matrix Computer Program CLT Comparing Classical Lamination Theory and Finite- Element Analyses Free Edge Stresses Homework Problems Predicting Failure of a Multiangle Composite Laminate Preliminary Discussion Estimating Laminate Failure Strengths Using CLT First-Ply Failure Envelopes Computer Programs LAMFAIL and PROGDAM Homework Problems Composite Beams Preliminary Discussion Comparing Classical Lamination Theory to Isotropic Beam Theory Types of Composite Beams Considered Effective Axial Rigidity of Rectangular Composite Beams Effective Flexural Rigidities of Rectangular Composite Beams Effective Axial and Flexural Rigidities for Thin-Walled Composite Beams Statically Determinate and Indeterminate Axially Loaded Composite Beams Statically Determinate and Indeterminate Transversely Loaded Composite Beams Computer Program BEAM Homework Problems Stress Concentrations Near an Elliptical Hole Preliminary Discussion Summary of the Savin Solution for an Anisotropic Plate with Elliptical Hole Circular Holes in Unidirectional Laminates Elliptical Holes with an Aspect Ratio of Three in Unidirectional Laminates Circular Holes in Multiangle Laminates Computer Program HOLES Homework Problems The Governing Equations of Thin-Plate Theory Preliminary Discussion The Equations of Equilibrium for Symmetric Laminates Boundary Conditions Representing Arbitrary Transverse Loads as a Fourier Series Some Exact Solutions for Specially Orthotropic Laminates Equations of Equilibrium for a Specially Orthotropic Laminate In-Plane Displacement Fields in Specially Orthotropic Laminates Specially Orthotropic Laminates Subject to Simple Supports of Type S1 Specially Orthotropic Laminates Subject to Simple Supports of Type S4 Specially Orthotropic Laminates with Two Simply Supported Edges of Type S1 and Two Edges of Type S2 The Navier Solution Applied to a Specially Orthotropic Laminate Subject to Simple Supports of Type S4 Buckling of Rectangular Specially Orthotropic Laminates Subject to Simple Supports of Type S4 Thermal Buckling of Rectangular Specially Orthotropic Laminates Subject to Simple Supports of Type S1 Computer Program SPORTHO Some Approximate Solutions for Symmetric Laminates Preliminary Discussion In-Plane Displacement Fields Potential Energy in a Thin Composite Plate Symmetric Composite Laminates Subject to Simple Supports of Type S4 Buckling of Symmetric Composite Plates Subject to Simple Supports of Type S4 Computer Program SYMM Appendix A: Experimental Methods Used to Measure In-Plane Elastic Properties Appendix B: Tables of Beam Deflections and Slopes Index

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Szczegóły: Structural Analysis of Polymeric Composite Materials - Mark E. Tuttle

Tytuł: Structural Analysis of Polymeric Composite Materials
Autor: Mark E. Tuttle
Producent: CRC Press Inc.
ISBN: 9781439875124
Rok produkcji: 2012
Ilość stron: 668
Oprawa: Twarda
Waga: 1.05 kg


Recenzje: Structural Analysis of Polymeric Composite Materials - Mark E. Tuttle

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