Acta Mechanica Solida Sinica [[Acta Mechanica Solida Sinica]] |
Pubbl/distr/stampa | Wuhan, China : , : Huazhong University of Science and Technology |
Disciplina | 620.1/05 |
Soggetto topico |
Mechanics, Applied
Mechanics, Analytic |
ISSN | 1860-2134 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Periodico |
Lingua di pubblicazione | eng |
Record Nr. | UNISA-996209732703316 |
Wuhan, China : , : Huazhong University of Science and Technology | ||
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Lo trovi qui: Univ. di Salerno | ||
|
Acta Mechanica Solida Sinica [[Acta Mechanica Solida Sinica]] |
Pubbl/distr/stampa | Wuhan, China : , : Huazhong University of Science and Technology |
Disciplina | 620.1/05 |
Soggetto topico |
Mechanics, Applied
Mechanics, Analytic |
ISSN | 1860-2134 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Periodico |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910333159003321 |
Wuhan, China : , : Huazhong University of Science and Technology | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
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Experimental mechanics of solids [[electronic resource] /] / Cesar A. Sciammarella, Federico M. Sciammarella |
Autore | Sciammarella Cesar A |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley, 2012 |
Descrizione fisica | 1 online resource (767 p.) |
Disciplina | 620.1/05 |
Altri autori (Persone) | SciammarellaF. M (Federico M.) |
Soggetto topico |
Strength of materials
Solids - Mechanical properties Structural analysis (Engineering) |
ISBN |
1-280-59127-7
9786613621108 1-119-99409-8 1-119-99408-X |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
EXPERIMENTAL MECHANICS OF SOLIDS; About the Authors; Preface; Foreword; 1 Continuum Mechanics - Historical Background; 1.1 Definition of the Concept of Stress; 1.2 Transformation of Coordinates; 1.3 Stress Tensor Representation; 1.3.1 Two Dimensional Case; 1.4 Principal Stresses; 1.4.1 How to Calculate Principal Stresses after Making the Transformation; 1.4.2 Maximum and Minimum Shear Stresses; 1.5 Principal Stresses in Two Dimensions; 1.6 The Equations of Equilibrium; 1.7 Strain Tensor; 1.8 Stress - Strain Relations; 1.8.1 Homogeneous or Not?; 1.8.2 Material Coordinate System
1.8.3 Linear, Elastic, Isotropic Materials. Lamé Constants1.9 Equations of Compatibility; References; 2 Theoretical Stress Analysis - Basic Formulation of Continuum Mechanics. Theory of Elasticity; 2.1 Introduction; 2.2 Fundamental Assumptions; 2.3 General Problem; 2.3.1 Boundary Conditions; 2.4 St. Venant's Principle; 2.5 Plane Stress, Plane Strain; 2.5.1 Solutions of Problems of 2D Using the Airy's Stress Function; 2.6 Plane Stress Solution of a Simply Supported Beam with a Uniform Load; 2.7 Solutions in Plane Strain and in Plane Stress; 2.8 The Plane Problem in Polar Coordinates 2.9 Thick Wall CylindersReferences; 3 Strain Gages - Introduction to Electrical Strain Gages; 3.1 Strain Measurements - Point Methods; 3.2 Electrical Strain Gages; 3.3 Basics of Electrical Strain Gages; 3.3.1 Backing Material; 3.3.2 Cements; 3.3.3 Application of Gages onto Surfaces; 3.4 Gage Factor; 3.4.1 Derivation of Gage Factor; 3.4.2 Alloys for Strain Gages; 3.4.3 Semiconductor Strain Gages; 3.5 Basic Characteristics of Electrical Strain Gages; 3.5.1 Electrical Resistance; 3.5.2 Temperature Effect; 3.5.3 Corrections for Thermal Output; 3.5.4 Adjusting Thermal Output for Gage Factor 3.6 Errors Due to the Transverse Sensitivity3.6.1 Corrections Due to the Transversal Sensitivity; 3.7 Errors Due to Misalignment of Strain Gages; 3.8 Reinforcing Effect of the Gage; 3.9 Effect of the Resistance to Ground; 3.10 Linearity of the Gages. Hysteresis; 3.11 Maximum Deformations; 3.12 Stability in Time; 3.13 Heat Generation and Dissipation; 3.14 Effect of External Ambient Pressure; 3.14.1 Additional Consideration Concerning the Effect of Pressure on Strain Gages; 3.14.2 Additional Environment Effects to Consider; 3.14.3 Electromagnetic Fields; 3.15 Dynamic Effects 3.15.1 Transient Effects3.15.2 Steady State Response. Fatigue Characteristics of Strain Gauges; References; 4 Strain Gages Instrumentation - The Wheatstone Bridge; 4.1 Introduction; 4.1.1 Derivation of the Wheatstone Equilibrium Condition; 4.1.2 Full Bridge Arrangements in Some Simple Cases of Loadings; 4.1.3 Linearity Errors of the Wheatstone Bridge with Constant Voltage; 4.1.4 Temperature Compensation in the Bridge Circuit; 4.1.5 Leadwire Resistance/Temperature Compensation; 4.1.6 Shunt Calibration of Strain Gage Instrumentation; 4.1.7 Series Resistance Null Balance 4.1.8 Available Commercial Instrumentation |
Record Nr. | UNINA-9910141291403321 |
Sciammarella Cesar A
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Hoboken, N.J., : Wiley, 2012 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
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Experimental mechanics of solids / / Cesar A. Sciammarella, Federico M. Sciammarella |
Autore | Sciammarella Cesar A |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley, 2012 |
Descrizione fisica | 1 online resource (767 p.) |
Disciplina | 620.1/05 |
Altri autori (Persone) | SciammarellaF. M (Federico M.) |
Soggetto topico |
Strength of materials
Solids - Mechanical properties Structural analysis (Engineering) |
ISBN |
1-280-59127-7
9786613621108 1-119-99409-8 1-119-99408-X |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
EXPERIMENTAL MECHANICS OF SOLIDS; About the Authors; Preface; Foreword; 1 Continuum Mechanics - Historical Background; 1.1 Definition of the Concept of Stress; 1.2 Transformation of Coordinates; 1.3 Stress Tensor Representation; 1.3.1 Two Dimensional Case; 1.4 Principal Stresses; 1.4.1 How to Calculate Principal Stresses after Making the Transformation; 1.4.2 Maximum and Minimum Shear Stresses; 1.5 Principal Stresses in Two Dimensions; 1.6 The Equations of Equilibrium; 1.7 Strain Tensor; 1.8 Stress - Strain Relations; 1.8.1 Homogeneous or Not?; 1.8.2 Material Coordinate System
1.8.3 Linear, Elastic, Isotropic Materials. Lamé Constants1.9 Equations of Compatibility; References; 2 Theoretical Stress Analysis - Basic Formulation of Continuum Mechanics. Theory of Elasticity; 2.1 Introduction; 2.2 Fundamental Assumptions; 2.3 General Problem; 2.3.1 Boundary Conditions; 2.4 St. Venant's Principle; 2.5 Plane Stress, Plane Strain; 2.5.1 Solutions of Problems of 2D Using the Airy's Stress Function; 2.6 Plane Stress Solution of a Simply Supported Beam with a Uniform Load; 2.7 Solutions in Plane Strain and in Plane Stress; 2.8 The Plane Problem in Polar Coordinates 2.9 Thick Wall CylindersReferences; 3 Strain Gages - Introduction to Electrical Strain Gages; 3.1 Strain Measurements - Point Methods; 3.2 Electrical Strain Gages; 3.3 Basics of Electrical Strain Gages; 3.3.1 Backing Material; 3.3.2 Cements; 3.3.3 Application of Gages onto Surfaces; 3.4 Gage Factor; 3.4.1 Derivation of Gage Factor; 3.4.2 Alloys for Strain Gages; 3.4.3 Semiconductor Strain Gages; 3.5 Basic Characteristics of Electrical Strain Gages; 3.5.1 Electrical Resistance; 3.5.2 Temperature Effect; 3.5.3 Corrections for Thermal Output; 3.5.4 Adjusting Thermal Output for Gage Factor 3.6 Errors Due to the Transverse Sensitivity3.6.1 Corrections Due to the Transversal Sensitivity; 3.7 Errors Due to Misalignment of Strain Gages; 3.8 Reinforcing Effect of the Gage; 3.9 Effect of the Resistance to Ground; 3.10 Linearity of the Gages. Hysteresis; 3.11 Maximum Deformations; 3.12 Stability in Time; 3.13 Heat Generation and Dissipation; 3.14 Effect of External Ambient Pressure; 3.14.1 Additional Consideration Concerning the Effect of Pressure on Strain Gages; 3.14.2 Additional Environment Effects to Consider; 3.14.3 Electromagnetic Fields; 3.15 Dynamic Effects 3.15.1 Transient Effects3.15.2 Steady State Response. Fatigue Characteristics of Strain Gauges; References; 4 Strain Gages Instrumentation - The Wheatstone Bridge; 4.1 Introduction; 4.1.1 Derivation of the Wheatstone Equilibrium Condition; 4.1.2 Full Bridge Arrangements in Some Simple Cases of Loadings; 4.1.3 Linearity Errors of the Wheatstone Bridge with Constant Voltage; 4.1.4 Temperature Compensation in the Bridge Circuit; 4.1.5 Leadwire Resistance/Temperature Compensation; 4.1.6 Shunt Calibration of Strain Gage Instrumentation; 4.1.7 Series Resistance Null Balance 4.1.8 Available Commercial Instrumentation |
Record Nr. | UNINA-9910815916003321 |
Sciammarella Cesar A
![]() |
||
Hoboken, N.J., : Wiley, 2012 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Foundations of Solid Mechanics [[electronic resource] /] / by P. Karasudhi |
Autore | Karasudhi P |
Edizione | [1st ed. 1991.] |
Pubbl/distr/stampa | Dordrecht : , : Springer Netherlands : , : Imprint : Springer, , 1991 |
Descrizione fisica | 1 online resource (XVI, 446 p.) |
Disciplina | 620.1/05 |
Collana | Solid Mechanics and Its Applications |
Soggetto topico |
Mechanics
Mechanical engineering Classical Mechanics Mechanical Engineering |
ISBN |
94-010-5695-1
94-011-3814-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | I Mathematical Foundations -- 1.1 Tensors and continuum mechanics -- 1.2 Scalars and vectors -- 1.3 Indicial notation -- 1.4 Algebra of Cartesian tensors -- 1.5 Matrices and determinants -- 1.6 Linear equations and Eigenvalue problem -- 1.7 Theorems on tensor fields -- 1.8 Differential geometry -- 1.9 Dirac-delta and Heaviside step functions -- 1.10 Bessel functions -- 1.11 Laplace transforms -- 1.12 Inverse Laplace transforms -- 1.13 One-to-one mappings -- 1.14 Curvilinear coordinates -- 1.15 Derivatives with respect to curvilinear coordinates -- 1.16 Exercise problems -- II Stress and Strain Tensors -- 2.1 Introduction -- 2.2 Force distribution and stresses -- 2.3 Stress vector and equations of mation -- 2.4 Euler’s laws of motion -- 2.5 Stress tensor -- 2.6 Stationary shear stresses -- 2.7 Octahedral shear stress and stress deviator -- 2.8 Strain tensor -- 2.9 Compatibility conditions -- 2.10 Cylindrical and spherical coordinates -- 2.11 Problems -- 2.12 Exercise problems -- III Linear Elasticity -- 3.1 Strain energy function -- 3.2 Orthotopic and isotropic elastic solids -- 3.3 Young's moduli and Poisson's ratios for orthotropic elastic solids -- 3.4 Solution schemes -- 3.5 Field equations in tenns of displacements -- 3.6 Problems -- IV Elastostatic Plane Problems -- 4.1 Plane problems of orthotropic elastic materials -- 4.2 Airy function for isotropic plane problems -- 4.3 Isotropic elastic plane problems in cylindrical coordinates -- 4.4 Displacement for a given biharmonic function -- 4.5 Examples of infinite plane problems -- 4.6 Particular solutions for concentrated forces -- 4.7 Exercise problems -- Table 4.1 Complementary and particular solutions for elastostatics of isotropic planes -- V Bending of Elastic Thin Plates -- 5.1 Basic assumptions -- 5.2 Equilibrium, boundary conditions and stress resultants -- 5.3 Physical meaning of stress resultants -- 5.4 Governing conditions for isotropic plates -- 5.5 Solutions for rectangular plates -- 5.6 Closed form solutions for circular plates -- 5.7 Series solutions for circular plates -- 5.8 Polygonal plates supported at corners -- 5.9 Plates on elastic foundation -- 5.10 Exercise problems -- Table 5.1 Complementary and particular solutions for elastostatic bending of thin isotropic plates -- VI Elastostatics with Displacements as Unknowns -- 6.1 Field equations for plane problems -- 6.2 Solution scheme for large planes -- 6.3 Solution scheme for large spaces -- 6.4 Homogeneous half planes and half spaces -- 6.5 Concentrated force inside a half space -- 6.6 Load transfer problems -- 6.7 Infinite elements for multilayered half spaces -- 6.8 Saturated large spaces -- 6.9 Exercise problems -- VII Linear Viscoelasticity -- 7.1 Linear elasticity and Newtonian viscosity -- 7.2 Creep and relaxation -- 7.3 Compliance and modulus of mechanical models -- 7.4 Differential equations for stress-strain relationship -- 7.5 Steady state harmonic oscillation -- 7.6 Thermorheologically simple solids -- 7.7 Three-dimensional theory -- 7.8 Quasi-static solution by separation of variables -- 7.9 Steady state harmonic solution scheme -- 7.10 Integral transform methods and their limitations -- 7.11 Three-dimensional thermoviscoelasticity -- 7.12 Problems -- VIII Wave Propagation -- 8.1 Terminology in wave propagation -- 8.2 Wavefront and jumps -- 8.3 Velocity jumps in isotropic elastic domains -- 8.4 Reflection and tansmission at interfaces and boundaries -- 8.5 Waves in isotropic viscoelastic media -- 8.6 In-plane harmonic surface waves -- 8.7 Antiplane harmonic surface waves -- 8.8 Vibration of multilayered elastic half spaces -- 8.9 Asymmetric vibration of a homogeneous half space -- 8.10 Axisymmetric torsion of a layered half space -- 8.11 Total solution to vibration of half planes -- 8.12 Vibration of viscoelastic half spaces -- 8.13 Infinite elements for a homogeneous half space -- 8.14 Exercise problems -- IX Plasticity -- 9.1 Facts from simple tests -- 9.2 Basic assumptions and common characteristics of various theories -- 9.3 Various yield functions -- 9.4 Hardening and flow rules -- 9.5 Incremental formulation for isotropic hardening -- 9.6 Viscoplasticity -- X Finite Deformation -- 10.1 Different descriptions of changing configuration -- 10.2 Material derivative and conservation of mass -- 10.3 Stress tensors in different descriptions -- 10.4 Equations of motion in different descriptions -- 10.5 Finite strain tensors -- 10.6 Reformed Lagrangian description -- 10.7 Strain tensors in curvilinear coordinates -- 10.8 Equilibrium equations and stress tensors in curvilinear coordinates -- 10.9 Physical components of vectors and tensors -- 10.10 Boundary conditions and constitutive relationship in curvilinear coordinates -- 10.11 Compatibility conditions -- 10.12 Problems -- References -- Author Index. |
Record Nr. | UNINA-9910480245603321 |
Karasudhi P
![]() |
||
Dordrecht : , : Springer Netherlands : , : Imprint : Springer, , 1991 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Foundations of Solid Mechanics [[electronic resource] /] / by P. Karasudhi |
Autore | Karasudhi P |
Edizione | [1st ed. 1991.] |
Pubbl/distr/stampa | Dordrecht : , : Springer Netherlands : , : Imprint : Springer, , 1991 |
Descrizione fisica | 1 online resource (XVI, 446 p.) |
Disciplina | 620.1/05 |
Collana | Solid Mechanics and Its Applications |
Soggetto topico |
Mechanics
Mechanical engineering Classical Mechanics Mechanical Engineering |
ISBN |
94-010-5695-1
94-011-3814-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | I Mathematical Foundations -- 1.1 Tensors and continuum mechanics -- 1.2 Scalars and vectors -- 1.3 Indicial notation -- 1.4 Algebra of Cartesian tensors -- 1.5 Matrices and determinants -- 1.6 Linear equations and Eigenvalue problem -- 1.7 Theorems on tensor fields -- 1.8 Differential geometry -- 1.9 Dirac-delta and Heaviside step functions -- 1.10 Bessel functions -- 1.11 Laplace transforms -- 1.12 Inverse Laplace transforms -- 1.13 One-to-one mappings -- 1.14 Curvilinear coordinates -- 1.15 Derivatives with respect to curvilinear coordinates -- 1.16 Exercise problems -- II Stress and Strain Tensors -- 2.1 Introduction -- 2.2 Force distribution and stresses -- 2.3 Stress vector and equations of mation -- 2.4 Euler’s laws of motion -- 2.5 Stress tensor -- 2.6 Stationary shear stresses -- 2.7 Octahedral shear stress and stress deviator -- 2.8 Strain tensor -- 2.9 Compatibility conditions -- 2.10 Cylindrical and spherical coordinates -- 2.11 Problems -- 2.12 Exercise problems -- III Linear Elasticity -- 3.1 Strain energy function -- 3.2 Orthotopic and isotropic elastic solids -- 3.3 Young's moduli and Poisson's ratios for orthotropic elastic solids -- 3.4 Solution schemes -- 3.5 Field equations in tenns of displacements -- 3.6 Problems -- IV Elastostatic Plane Problems -- 4.1 Plane problems of orthotropic elastic materials -- 4.2 Airy function for isotropic plane problems -- 4.3 Isotropic elastic plane problems in cylindrical coordinates -- 4.4 Displacement for a given biharmonic function -- 4.5 Examples of infinite plane problems -- 4.6 Particular solutions for concentrated forces -- 4.7 Exercise problems -- Table 4.1 Complementary and particular solutions for elastostatics of isotropic planes -- V Bending of Elastic Thin Plates -- 5.1 Basic assumptions -- 5.2 Equilibrium, boundary conditions and stress resultants -- 5.3 Physical meaning of stress resultants -- 5.4 Governing conditions for isotropic plates -- 5.5 Solutions for rectangular plates -- 5.6 Closed form solutions for circular plates -- 5.7 Series solutions for circular plates -- 5.8 Polygonal plates supported at corners -- 5.9 Plates on elastic foundation -- 5.10 Exercise problems -- Table 5.1 Complementary and particular solutions for elastostatic bending of thin isotropic plates -- VI Elastostatics with Displacements as Unknowns -- 6.1 Field equations for plane problems -- 6.2 Solution scheme for large planes -- 6.3 Solution scheme for large spaces -- 6.4 Homogeneous half planes and half spaces -- 6.5 Concentrated force inside a half space -- 6.6 Load transfer problems -- 6.7 Infinite elements for multilayered half spaces -- 6.8 Saturated large spaces -- 6.9 Exercise problems -- VII Linear Viscoelasticity -- 7.1 Linear elasticity and Newtonian viscosity -- 7.2 Creep and relaxation -- 7.3 Compliance and modulus of mechanical models -- 7.4 Differential equations for stress-strain relationship -- 7.5 Steady state harmonic oscillation -- 7.6 Thermorheologically simple solids -- 7.7 Three-dimensional theory -- 7.8 Quasi-static solution by separation of variables -- 7.9 Steady state harmonic solution scheme -- 7.10 Integral transform methods and their limitations -- 7.11 Three-dimensional thermoviscoelasticity -- 7.12 Problems -- VIII Wave Propagation -- 8.1 Terminology in wave propagation -- 8.2 Wavefront and jumps -- 8.3 Velocity jumps in isotropic elastic domains -- 8.4 Reflection and tansmission at interfaces and boundaries -- 8.5 Waves in isotropic viscoelastic media -- 8.6 In-plane harmonic surface waves -- 8.7 Antiplane harmonic surface waves -- 8.8 Vibration of multilayered elastic half spaces -- 8.9 Asymmetric vibration of a homogeneous half space -- 8.10 Axisymmetric torsion of a layered half space -- 8.11 Total solution to vibration of half planes -- 8.12 Vibration of viscoelastic half spaces -- 8.13 Infinite elements for a homogeneous half space -- 8.14 Exercise problems -- IX Plasticity -- 9.1 Facts from simple tests -- 9.2 Basic assumptions and common characteristics of various theories -- 9.3 Various yield functions -- 9.4 Hardening and flow rules -- 9.5 Incremental formulation for isotropic hardening -- 9.6 Viscoplasticity -- X Finite Deformation -- 10.1 Different descriptions of changing configuration -- 10.2 Material derivative and conservation of mass -- 10.3 Stress tensors in different descriptions -- 10.4 Equations of motion in different descriptions -- 10.5 Finite strain tensors -- 10.6 Reformed Lagrangian description -- 10.7 Strain tensors in curvilinear coordinates -- 10.8 Equilibrium equations and stress tensors in curvilinear coordinates -- 10.9 Physical components of vectors and tensors -- 10.10 Boundary conditions and constitutive relationship in curvilinear coordinates -- 10.11 Compatibility conditions -- 10.12 Problems -- References -- Author Index. |
Record Nr. | UNINA-9910789498003321 |
Karasudhi P
![]() |
||
Dordrecht : , : Springer Netherlands : , : Imprint : Springer, , 1991 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Foundations of Solid Mechanics [[electronic resource] /] / by P. Karasudhi |
Autore | Karasudhi P |
Edizione | [1st ed. 1991.] |
Pubbl/distr/stampa | Dordrecht : , : Springer Netherlands : , : Imprint : Springer, , 1991 |
Descrizione fisica | 1 online resource (XVI, 446 p.) |
Disciplina | 620.1/05 |
Collana | Solid Mechanics and Its Applications |
Soggetto topico |
Mechanics
Mechanical engineering Classical Mechanics Mechanical Engineering |
ISBN |
94-010-5695-1
94-011-3814-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | I Mathematical Foundations -- 1.1 Tensors and continuum mechanics -- 1.2 Scalars and vectors -- 1.3 Indicial notation -- 1.4 Algebra of Cartesian tensors -- 1.5 Matrices and determinants -- 1.6 Linear equations and Eigenvalue problem -- 1.7 Theorems on tensor fields -- 1.8 Differential geometry -- 1.9 Dirac-delta and Heaviside step functions -- 1.10 Bessel functions -- 1.11 Laplace transforms -- 1.12 Inverse Laplace transforms -- 1.13 One-to-one mappings -- 1.14 Curvilinear coordinates -- 1.15 Derivatives with respect to curvilinear coordinates -- 1.16 Exercise problems -- II Stress and Strain Tensors -- 2.1 Introduction -- 2.2 Force distribution and stresses -- 2.3 Stress vector and equations of mation -- 2.4 Euler’s laws of motion -- 2.5 Stress tensor -- 2.6 Stationary shear stresses -- 2.7 Octahedral shear stress and stress deviator -- 2.8 Strain tensor -- 2.9 Compatibility conditions -- 2.10 Cylindrical and spherical coordinates -- 2.11 Problems -- 2.12 Exercise problems -- III Linear Elasticity -- 3.1 Strain energy function -- 3.2 Orthotopic and isotropic elastic solids -- 3.3 Young's moduli and Poisson's ratios for orthotropic elastic solids -- 3.4 Solution schemes -- 3.5 Field equations in tenns of displacements -- 3.6 Problems -- IV Elastostatic Plane Problems -- 4.1 Plane problems of orthotropic elastic materials -- 4.2 Airy function for isotropic plane problems -- 4.3 Isotropic elastic plane problems in cylindrical coordinates -- 4.4 Displacement for a given biharmonic function -- 4.5 Examples of infinite plane problems -- 4.6 Particular solutions for concentrated forces -- 4.7 Exercise problems -- Table 4.1 Complementary and particular solutions for elastostatics of isotropic planes -- V Bending of Elastic Thin Plates -- 5.1 Basic assumptions -- 5.2 Equilibrium, boundary conditions and stress resultants -- 5.3 Physical meaning of stress resultants -- 5.4 Governing conditions for isotropic plates -- 5.5 Solutions for rectangular plates -- 5.6 Closed form solutions for circular plates -- 5.7 Series solutions for circular plates -- 5.8 Polygonal plates supported at corners -- 5.9 Plates on elastic foundation -- 5.10 Exercise problems -- Table 5.1 Complementary and particular solutions for elastostatic bending of thin isotropic plates -- VI Elastostatics with Displacements as Unknowns -- 6.1 Field equations for plane problems -- 6.2 Solution scheme for large planes -- 6.3 Solution scheme for large spaces -- 6.4 Homogeneous half planes and half spaces -- 6.5 Concentrated force inside a half space -- 6.6 Load transfer problems -- 6.7 Infinite elements for multilayered half spaces -- 6.8 Saturated large spaces -- 6.9 Exercise problems -- VII Linear Viscoelasticity -- 7.1 Linear elasticity and Newtonian viscosity -- 7.2 Creep and relaxation -- 7.3 Compliance and modulus of mechanical models -- 7.4 Differential equations for stress-strain relationship -- 7.5 Steady state harmonic oscillation -- 7.6 Thermorheologically simple solids -- 7.7 Three-dimensional theory -- 7.8 Quasi-static solution by separation of variables -- 7.9 Steady state harmonic solution scheme -- 7.10 Integral transform methods and their limitations -- 7.11 Three-dimensional thermoviscoelasticity -- 7.12 Problems -- VIII Wave Propagation -- 8.1 Terminology in wave propagation -- 8.2 Wavefront and jumps -- 8.3 Velocity jumps in isotropic elastic domains -- 8.4 Reflection and tansmission at interfaces and boundaries -- 8.5 Waves in isotropic viscoelastic media -- 8.6 In-plane harmonic surface waves -- 8.7 Antiplane harmonic surface waves -- 8.8 Vibration of multilayered elastic half spaces -- 8.9 Asymmetric vibration of a homogeneous half space -- 8.10 Axisymmetric torsion of a layered half space -- 8.11 Total solution to vibration of half planes -- 8.12 Vibration of viscoelastic half spaces -- 8.13 Infinite elements for a homogeneous half space -- 8.14 Exercise problems -- IX Plasticity -- 9.1 Facts from simple tests -- 9.2 Basic assumptions and common characteristics of various theories -- 9.3 Various yield functions -- 9.4 Hardening and flow rules -- 9.5 Incremental formulation for isotropic hardening -- 9.6 Viscoplasticity -- X Finite Deformation -- 10.1 Different descriptions of changing configuration -- 10.2 Material derivative and conservation of mass -- 10.3 Stress tensors in different descriptions -- 10.4 Equations of motion in different descriptions -- 10.5 Finite strain tensors -- 10.6 Reformed Lagrangian description -- 10.7 Strain tensors in curvilinear coordinates -- 10.8 Equilibrium equations and stress tensors in curvilinear coordinates -- 10.9 Physical components of vectors and tensors -- 10.10 Boundary conditions and constitutive relationship in curvilinear coordinates -- 10.11 Compatibility conditions -- 10.12 Problems -- References -- Author Index. |
Record Nr. | UNINA-9910818048503321 |
Karasudhi P
![]() |
||
Dordrecht : , : Springer Netherlands : , : Imprint : Springer, , 1991 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Fundamentals of micromechanics of solids |
Autore | Qu Jianmin |
Pubbl/distr/stampa | [Place of publication not identified], : Wiley, 2006 |
Disciplina | 620.1/05 |
Soggetto topico |
Nanostructured materials - Mechanical properties
Micromechanics - Materials Microelectromechanical systems Materials Science Chemical & Materials Engineering Engineering & Applied Sciences |
ISBN | 0-470-11783-4 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910144585103321 |
Qu Jianmin
![]() |
||
[Place of publication not identified], : Wiley, 2006 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Fundamentals of micromechanics of solids |
Autore | Qu Jianmin |
Pubbl/distr/stampa | [Place of publication not identified], : Wiley, 2006 |
Disciplina | 620.1/05 |
Soggetto topico |
Nanostructured materials - Mechanical properties
Micromechanics - Materials Microelectromechanical systems Materials Science Chemical & Materials Engineering Engineering & Applied Sciences |
ISBN | 0-470-11783-4 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910830760703321 |
Qu Jianmin
![]() |
||
[Place of publication not identified], : Wiley, 2006 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Fundamentals of micromechanics of solids |
Autore | Qu Jianmin |
Pubbl/distr/stampa | [Place of publication not identified], : Wiley, 2006 |
Disciplina | 620.1/05 |
Soggetto topico |
Nanostructured materials - Mechanical properties
Micromechanics - Materials Microelectromechanical systems Materials Science Chemical & Materials Engineering Engineering & Applied Sciences |
ISBN | 0-470-11783-4 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910840909503321 |
Qu Jianmin
![]() |
||
[Place of publication not identified], : Wiley, 2006 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|