Functionally graded materials / / Nathan J. Reynolds, editor

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Titolo:	Functionally graded materials / / Nathan J. Reynolds, editor
Pubblicazione:	New York, : Nova Science Publishers, c2012
Edizione:	1st ed.
Descrizione fisica:	1 online resource (336 p.)
Disciplina:	620.1/18
Soggetto topico:	Functionally gradient materials
Altri autori:	ReynoldsNathan J
Note generali:	Description based upon print version of record.
Nota di bibliografia:	Includes bibliographical references and index.
Nota di contenuto:	Intro -- FUNCTIONALLY GRADED MATERIALS -- FUNCTIONALLY GRADED MATERIALS -- CONTENTS -- PREFACE -- A LINEAR MULTI-LAYERED MODEL AND ITS APPLICATIONS IN FRACTURE AND CONTACT MECHANICS OF ELASTIC FUNCTIONALLY GRADED MATERIALS -- 1. INTRODUCTION -- 2. MATHEMATICAL MODELING OF FGMS -- 2.1. Basic Equations -- 2.1.1. Plane Problem -- 2.1.2. Antiplane Problem -- 2.1.3. Axisymmetric Problem -- 2.1.3. Axisymmetric Torsion Problem -- 2.2. Exponential Model -- 2.2.1. General Solutions of Plane Problem in Fourier Transform Domain -- 2.2.2. General Solutions of Antiplane Problem in Fourier Transform Domain -- 2.2.3. General Solutions of Axisymmetric Problem in Hankel Transform Domain -- 2.2.4. General Solutions of Axisymmetric Torsion Problem in Hankel Transform Domain -- 2.3. HML Model -- 2.3.1. General Solutions of Plane Problem in Fourier Transform Domain -- 2.3.2. General Solutions of Antiplane Problem in Fourier Transform Domain -- 2.3.3. General Solutions of Axisymmetric Problem in Hankel Transform Domain -- 2.3.4. General Solutions of Axisymmetric Torsion Problem in Hankel Transform Domain -- 2.4. Linear Multi-Layered (LML) Model -- 2.4.1. General Solutions of Plane Problem in Fourier Transform Domain -- 2.4.2. General Solutions of Antiplane Problem in Fourier Transform Domain -- 2.4.3. General Solutions of Axisymmetric Problem in Hankel Transform Domain -- 2.4.4. General Solutions of Axisymmetric Torsion Problem in Hankel Transform Domain -- 3. FRACTURE MECHANICS OF FGMS -- 3.1. Plane Fracture -- 3.1.1. Transfer Matrix and Dual Integral Equations -- 3.1.2. Cauchy Singular Integral Equations -- 3.1.3. Numerical Examples -- 3.2. Antiplane Fracture -- 3.2.1. Transfer Matrix and Dual Integral Equations -- 3.2.2. Cauchy Singular Integral Equation -- 3.2.3. Numerical Examples -- 3.3. Axisymmetric Fracture -- 3.3.1. Transfer Matrix and Dual Integral Equations.
	3.3.2. Singular Integral Equation and Stress Intensity Factor -- 3.3.4. Numerical Examples -- 3.4. Dynamic Fracture -- 3.4.1. Formulation -- 3.4.2. Numerical Examples -- 4. CONTACT MECHANICS OF FGMS -- 4.1. Plane Sliding Frictional Contact -- 4.1.1. Fundamental Solutions to an FGM Coated Half-Plane -- 4.1.2. Punch Problems for an FGM Coated Half-Plane -- 4.1.3. On the Solution of the Integral Equations and the Contact Stresses on the Surface -- 4.1.4. Examples -- (i) Rigid Flat Punch -- (ii) Rigid Triangular Punch -- (iii) Rigid Cylindrical Punch -- (iv) Rigid Wedge-Shaped Punch -- 4.1.5. Numerical Examples -- 4.2. Plane Normal Contact with Finite Friction -- 4.2.1. Formulation -- 4.2.2. The Goodman Approximation -- 4.2.3. Fully Coupled Normal Contact -- 4.2.4. Numerical Examples -- 4.3. Plane Fretting Contact Problem -- 4.3.1. A Monotonically Increasing Tangential Load -- 4.3.2. A Cycled Tangential Load -- 4.3.2. Numerical Examples -- 4.4. Axisymmetric Contact Mechanics -- 4.4.1. Fundamental Solutions to an FGM Coated Half-Space -- 4.4.2. Axisymmetric Frictionless Contact Problem for an FGM Coated Half-Space -- 4.4.3. Examples -- (i) Frictionless Rigid Flat Circular Punch -- (ii) Frictionless Rigid Spherical Punch -- (iii) Frictionless Rigid Conical Punch -- 4.4.4. Numerical Examples -- 4.5. Axisymmetric Normal Contact -- 4.5.1. Formulation -- 4.5.3. Numerical Examples -- 4.6. Axisymmetric Fretting Contact -- 4.6.1. Normal Contact Pressure -- 4.6.2. Monotonically Increasing Torsional Loading -- 4.6.3. Cyclic Torsional Loading -- 4.6.4. Numerical Examples -- REFERENCES -- FUNCTIONALLY GRADED MATERIALS OBTAINED BY COMBUSTION SYNTHESIS TECHNIQUES: A REVIEW -- ABSTRACT -- 1. FUNCTIONALLY GRADED MATERIALS: MANUFACTURING PROCESSES -- 2. COMBUSTION SYNTHESIS -- 2.1. Main Advantages of Combustion Synthesis.
	2.2. Types of CS Reactions and Obtained Products and Materials -- 2.3. Ignition Techniques -- 2.3.1. Microwaves and Combustion Synthesis -- 3. FGMS OBTAINED BY CS TECHNIQUES -- 3.1. Ceramic-Based FGMs -- 3.2. Cermets and Intermetallic Matrix Based FGMs -- 3.3. Metal- and/or Intermetallic-Based FGMs -- CONCLUSION -- REFERENCES -- THE METHOD OF FUNDAMENTAL SOLUTIONS FOR THERMOELASTIC ANALYSIS OF FUNCTIONALLY GRADED MATERIALS -- ABSTRACT -- 1. INTRODUCTION -- 2. MATHEMATICAL FORMULATION -- 2.1. Basic Equations of Heat Conduction in FGMs -- (1) Heat Conduction Equation -- (2) Thermal boundary and initial conditions -- 2.2. Basic Equations of Thermoelasticity in FGMs -- (1) Governing Equations -- (2) Mechanical Boundary Conditions -- 3. MATERIAL PROPERTIES OF FGMS -- (1) Power-Law Type FGM (P-FGM)[30] -- (2) Exponential Type FGM (E-FGM)[31] -- 4. THE METHOD OF FUNDAMENTAL SOLUTIONS FOR THERMAL ANALYSIS -- 4.1. Complementary Solutions -- 4.2. Particular Solutions -- 4.3. Complete Solutions -- 4.4. Numerical Examples -- Example 4.4.1. Thermal shock problem. -- Example 4.4.2. Thermal shock problem. -- 5. THE METHOD OF FUNDAMENTAL SOLUTIONS FOR THERMOELASTIC ANALYSIS -- 5.1. Complementary Solutions -- 5.2. Particular Solutions -- 5.3. Complete Solutions -- 5.4. Numerical Examples -- CONCLUSION -- REFERENCES -- THREE-DIMENSIONAL THERMAL BUCKLING ANALYSIS OF FUNCTIONALLY GRADED ARBITRARY STRAIGHT-SIDED QUADRILATERAL PLATES -- ABSTRACT -- 1. INTRODUCTION -- 2. THEORETICAL FORMULATION -- 2.1. FGMs Relations -- 2.2. Pre-Buckling Analysis -- 2.3. Thermal Buckling Equations -- 2.4. DQ Solution Procedure -- 3. NUMERICAL RESULTS -- CONCLUSION -- APPENDIX A -- REFERENCES -- THE MECHANICAL RESPONSE OF METAL-CERAMIC FUNCTIONALLY GRADED MATERIALS: MODELS AND EXPERIENCES -- ABSTRACT -- INTRODUCTION -- CONSTITUTIVE MODELS FOR METAL-CERAMIC COMPOSITES -- Elasticity.
	Plasticity -- Fracture -- MATERIAL CHARACTERIZATION -- EXPERIMENTAL VALIDATION -- CONCLUSION -- REFERENCES -- SIMULATION OF QUASI-STATIC CRACK PROPAGATION IN FUNCTIONALLY GRADED MATERIALS -- Abstract -- 1.Introduction -- 1.1.TheProblemofElasticityinFunctionallyGradedMaterials -- 1.2.BasicRegularityResultsandEnergySolutions -- 2.AsymptoticBehavioroftheDisplacementFieldNeartheCrackTip -- 2.1.TheCaseofHomogeneousMaterials -- 2.2.TheCaseofInhomogeneousMaterials -- 2.3.CalculationofStressIntensityFactors -- JUSTIFICATION -- 3.FractureCriterion-theEnergyPrinciple -- ASYMPTOTICANALYSIS -- ASYMPTOTICEXPANSIONOFTHECHANGEOFPOTENTIALENERGY -- 3.1.TheChangeofPotentialEnergyinHomogeneousMaterials -- CONSTRUCTIONOFANINNERANDOUTEREXPANSION -- THECONNECTIONTOTHEIRWINFRACTURECRITERION -- 3.2.TheChangeofPotentialEnergyinInhomogeneousMaterials -- 4.NumericalSimulationofQuasi-StaticCrackPropagation -- 4.1.ComputationofGlobalIntegralCharacteristics -- 4.2.ComputationofLocalIntegralCharacteristics -- 5.Examples -- 5.1.NumericalResultsforHomogeneousMaterials -- 5.2.NumericalResultsforaFunctionallyGradedMaterial -- 6.Conclusion -- References -- CYLINDRICALLY-OR SPHERICALLY-SYMMETRIC PROBLEMS OF FUNCTIONALLY GRADED MATERIALS -- Abstract -- 1.Introduction -- 2.HollowFGMCylinders -- 3.HollowFGMSpheres -- 4.RotatingHollowFGMAnnuli -- 5.ThermoelasticFGMCylinders -- 5.1.Steady-StateThermoelasticAnalysis -- 5.2.TransientThermoelasticAnalysis -- 6.ElectroelasticProblemsofFGMs -- 6.1.FunctionallyGradedPiezoelectricHollowCylinders -- 6.2.FunctionallyGradedPiezoelectricSphericalShells -- 7.Conclusion -- References -- FUNCTIONALLY GRADED FOAMS FOR FILTER FABRICATION -- ABSTRACT -- RECENT DEVELOPMENTS -- PRODUCTION OF FUNCTIONALLY GRADED FOAMS -- THE FOAM CHARACTERIZATION -- CONCLUSION -- REFERENCES -- INDEX.
Sommario/riassunto:	Functionally graded materials (FGMs) are composites with gradually varying material content. This new book presents current research in the study of FGMs, including the fracture and contact problems of functionally graded materials; FGMs obtained by combustion synthesis techniques; thermoplastic simulation of FGMs; the thermal buckling analysis of functionally graded arbitrary straight-sided quadrilateral plates; the mechanical response of metal-ceramic FGMs and simulation of quasi-static crack propagation in FGMs.
Titolo autorizzato:	Functionally graded materials
ISBN:	1-62081-885-X
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910957633203321
Lo trovi qui:	Univ. Federico II
Opac:	Controlla la disponibilità qui

Serie: Materials science and technologies series.

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