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Applications of texture analysis [[electronic resource] ] : a collection of papers presented at the 15th International Conference on Textures of Materials (ICOTOM 15), June 1-6, 2008, Pittsburgh, Pennsylvania / / edited by A.D. Rollett
| Applications of texture analysis [[electronic resource] ] : a collection of papers presented at the 15th International Conference on Textures of Materials (ICOTOM 15), June 1-6, 2008, Pittsburgh, Pennsylvania / / edited by A.D. Rollett |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, c2009 |
| Descrizione fisica | 1 online resource (838 p.) |
| Disciplina | 620.11 |
| Altri autori (Persone) | RollettA. D (Anthony D.) |
| Collana | Ceramic transactions |
| Soggetto topico |
Materials - Texture
Metals - Texture Texture (Crystallography) |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-282-11349-6
9786612113499 0-470-44421-5 0-470-44420-7 |
| Classificazione | UQ 8500 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Applications of Texture Analysis; Contents; Preface; Acknowledgments; THIN FILMS (MICROELECTRONICS, HTSC; The Texture of Thin NiSi Films and Its Effect on Agglomeration; Epitaxial Substrates from Ni-Based Ternary Alloys With Cr and W; Cube Texture Formation in Ni-Pd and Ni-Pd-W Alloys For HTS Tapes; Texture of Rapidly Solidified Cu Thin Films Studied by SEM EBSD and TEM; Control of Texture in Polycrystalline Thin Films Used as DataStorage Media; Influences of Processing Parameters on Microstructures and Microtextures of Au Flip Chip Bonds During Microelectronics Packaging
TEXTURE AT NON-AMBIENT CONDITIONSIn Situ Observation of Texture Evolution in Ti-10-2-3; Study of Texture Evolution at High Strain Rates in FCC Materials; Texture and Microstructure Development in Copper after Cryogenic Rolling and Heat Treatment; In-Situ EBSD Study of the α-γ-α Phase Transformation in a Microalloyed Steel; Texture Changes during Phase Transformations Studied In Situ With Neutron Diffraction; NOVEL TEXTURE MEASUREMENT TECHNIQUES INCLUDING 3D; Three-Dimensional FIB-OIM of Ceramic Materials; Comparison of X-Ray and EBSD Textures for Back-Annealed Al-Mg Alloys A New Method for Quantification of Texture Uniformity of PlateSeparating Coincident Electron Backscatter Diffraction Patterns Near Interfaces; Rapid Texture Determination Based on Two Dimensional X Ray Detector; Semiautomatic Determination of Orientations and Elastic Strain from Kossel Microdiffraction; Statistically Reliable EBSD Analysis Method of Grain Boundary Characterization; 3D Microstructures and Textures of a Plane Strain Compressed {1 10} AI-0.3% Mn Single Crystal Three Laws of Substructure Anisotropy of Textured Metal Materials, Revealed by X-Ray Method of Generalized Pole Figures3D-Microstructural and Texture Characterization in Different Length Scales; Local Crystal Rotations of Bulk Grains by High-Resolution EBSD during Hot PSC of AI-0.1 % Mn Polycrystals; Grain Boundary Orientations in a Fe-Mn-Cu Polycrystalline Alloy; Development of a TEM-Based Orientation Microscopy System; COMPLEX OXIDES AND OTHER COMPOUNDS; Domain Control Effect on Voltage-Strain in BaTiO3 Single Crystal; Tentative Simulation of Crystal Rotation for NaCl Structures INTERFACE TEXTURESGrain Boundary Patterns in Dynamically Recrystallized Quartz Aggregates; The Correlation between Grain Boundary Character and lntergranular Corrosion Susceptibility of 2124 Aluminum Alloy; Rodrigues-Frank Spaces for Misorientations and Orientation Relationships between Crystals of Any Two Crystallographic Point Groups; Origins of Texture Memory in Steels; A Grain Boundary Analysis of Cemented Tungsten Carbides using OIM; The Effect of Grain and Phase Boundary Misorientation on Nucleation during Solid-State Phase Transformations in a Co-15Fe Alloy Microstructural Modification in a 15Cr-1 5Ni-2.2 Mo-Ti Modified Austenitic Stainless Steel through Twin Induced Grain Boundary Engineering |
| Record Nr. | UNINA-9910145255803321 |
| Hoboken, N.J., : Wiley, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Applications of texture analysis [[electronic resource] ] : a collection of papers presented at the 15th International Conference on Textures of Materials (ICOTOM 15), June 1-6, 2008, Pittsburgh, Pennsylvania / / edited by A.D. Rollett
| Applications of texture analysis [[electronic resource] ] : a collection of papers presented at the 15th International Conference on Textures of Materials (ICOTOM 15), June 1-6, 2008, Pittsburgh, Pennsylvania / / edited by A.D. Rollett |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, c2009 |
| Descrizione fisica | 1 online resource (838 p.) |
| Disciplina | 620.11 |
| Altri autori (Persone) | RollettA. D (Anthony D.) |
| Collana | Ceramic transactions |
| Soggetto topico |
Materials - Texture
Metals - Texture Texture (Crystallography) |
| ISBN |
1-282-11349-6
9786612113499 0-470-44421-5 0-470-44420-7 |
| Classificazione | UQ 8500 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Applications of Texture Analysis; Contents; Preface; Acknowledgments; THIN FILMS (MICROELECTRONICS, HTSC; The Texture of Thin NiSi Films and Its Effect on Agglomeration; Epitaxial Substrates from Ni-Based Ternary Alloys With Cr and W; Cube Texture Formation in Ni-Pd and Ni-Pd-W Alloys For HTS Tapes; Texture of Rapidly Solidified Cu Thin Films Studied by SEM EBSD and TEM; Control of Texture in Polycrystalline Thin Films Used as DataStorage Media; Influences of Processing Parameters on Microstructures and Microtextures of Au Flip Chip Bonds During Microelectronics Packaging
TEXTURE AT NON-AMBIENT CONDITIONSIn Situ Observation of Texture Evolution in Ti-10-2-3; Study of Texture Evolution at High Strain Rates in FCC Materials; Texture and Microstructure Development in Copper after Cryogenic Rolling and Heat Treatment; In-Situ EBSD Study of the α-γ-α Phase Transformation in a Microalloyed Steel; Texture Changes during Phase Transformations Studied In Situ With Neutron Diffraction; NOVEL TEXTURE MEASUREMENT TECHNIQUES INCLUDING 3D; Three-Dimensional FIB-OIM of Ceramic Materials; Comparison of X-Ray and EBSD Textures for Back-Annealed Al-Mg Alloys A New Method for Quantification of Texture Uniformity of PlateSeparating Coincident Electron Backscatter Diffraction Patterns Near Interfaces; Rapid Texture Determination Based on Two Dimensional X Ray Detector; Semiautomatic Determination of Orientations and Elastic Strain from Kossel Microdiffraction; Statistically Reliable EBSD Analysis Method of Grain Boundary Characterization; 3D Microstructures and Textures of a Plane Strain Compressed {1 10} AI-0.3% Mn Single Crystal Three Laws of Substructure Anisotropy of Textured Metal Materials, Revealed by X-Ray Method of Generalized Pole Figures3D-Microstructural and Texture Characterization in Different Length Scales; Local Crystal Rotations of Bulk Grains by High-Resolution EBSD during Hot PSC of AI-0.1 % Mn Polycrystals; Grain Boundary Orientations in a Fe-Mn-Cu Polycrystalline Alloy; Development of a TEM-Based Orientation Microscopy System; COMPLEX OXIDES AND OTHER COMPOUNDS; Domain Control Effect on Voltage-Strain in BaTiO3 Single Crystal; Tentative Simulation of Crystal Rotation for NaCl Structures INTERFACE TEXTURESGrain Boundary Patterns in Dynamically Recrystallized Quartz Aggregates; The Correlation between Grain Boundary Character and lntergranular Corrosion Susceptibility of 2124 Aluminum Alloy; Rodrigues-Frank Spaces for Misorientations and Orientation Relationships between Crystals of Any Two Crystallographic Point Groups; Origins of Texture Memory in Steels; A Grain Boundary Analysis of Cemented Tungsten Carbides using OIM; The Effect of Grain and Phase Boundary Misorientation on Nucleation during Solid-State Phase Transformations in a Co-15Fe Alloy Microstructural Modification in a 15Cr-1 5Ni-2.2 Mo-Ti Modified Austenitic Stainless Steel through Twin Induced Grain Boundary Engineering |
| Record Nr. | UNINA-9910830706903321 |
| Hoboken, N.J., : Wiley, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Applications of texture analysis : a collection of papers presented at the 15th International Conference on Textures of Materials (ICOTOM 15), June 1-6, 2008, Pittsburgh, Pennsylvania / / edited by A.D. Rollett
| Applications of texture analysis : a collection of papers presented at the 15th International Conference on Textures of Materials (ICOTOM 15), June 1-6, 2008, Pittsburgh, Pennsylvania / / edited by A.D. Rollett |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, c2009 |
| Descrizione fisica | 1 online resource (838 p.) |
| Disciplina | 620.11 |
| Altri autori (Persone) | RollettA. D (Anthony D.) |
| Collana | Ceramic transactions |
| Soggetto topico |
Materials - Texture
Metals - Texture Texture (Crystallography) |
| ISBN |
1-282-11349-6
9786612113499 0-470-44421-5 0-470-44420-7 |
| Classificazione | UQ 8500 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Applications of Texture Analysis; Contents; Preface; Acknowledgments; THIN FILMS (MICROELECTRONICS, HTSC; The Texture of Thin NiSi Films and Its Effect on Agglomeration; Epitaxial Substrates from Ni-Based Ternary Alloys With Cr and W; Cube Texture Formation in Ni-Pd and Ni-Pd-W Alloys For HTS Tapes; Texture of Rapidly Solidified Cu Thin Films Studied by SEM EBSD and TEM; Control of Texture in Polycrystalline Thin Films Used as DataStorage Media; Influences of Processing Parameters on Microstructures and Microtextures of Au Flip Chip Bonds During Microelectronics Packaging
TEXTURE AT NON-AMBIENT CONDITIONSIn Situ Observation of Texture Evolution in Ti-10-2-3; Study of Texture Evolution at High Strain Rates in FCC Materials; Texture and Microstructure Development in Copper after Cryogenic Rolling and Heat Treatment; In-Situ EBSD Study of the α-γ-α Phase Transformation in a Microalloyed Steel; Texture Changes during Phase Transformations Studied In Situ With Neutron Diffraction; NOVEL TEXTURE MEASUREMENT TECHNIQUES INCLUDING 3D; Three-Dimensional FIB-OIM of Ceramic Materials; Comparison of X-Ray and EBSD Textures for Back-Annealed Al-Mg Alloys A New Method for Quantification of Texture Uniformity of PlateSeparating Coincident Electron Backscatter Diffraction Patterns Near Interfaces; Rapid Texture Determination Based on Two Dimensional X Ray Detector; Semiautomatic Determination of Orientations and Elastic Strain from Kossel Microdiffraction; Statistically Reliable EBSD Analysis Method of Grain Boundary Characterization; 3D Microstructures and Textures of a Plane Strain Compressed {1 10} AI-0.3% Mn Single Crystal Three Laws of Substructure Anisotropy of Textured Metal Materials, Revealed by X-Ray Method of Generalized Pole Figures3D-Microstructural and Texture Characterization in Different Length Scales; Local Crystal Rotations of Bulk Grains by High-Resolution EBSD during Hot PSC of AI-0.1 % Mn Polycrystals; Grain Boundary Orientations in a Fe-Mn-Cu Polycrystalline Alloy; Development of a TEM-Based Orientation Microscopy System; COMPLEX OXIDES AND OTHER COMPOUNDS; Domain Control Effect on Voltage-Strain in BaTiO3 Single Crystal; Tentative Simulation of Crystal Rotation for NaCl Structures INTERFACE TEXTURESGrain Boundary Patterns in Dynamically Recrystallized Quartz Aggregates; The Correlation between Grain Boundary Character and lntergranular Corrosion Susceptibility of 2124 Aluminum Alloy; Rodrigues-Frank Spaces for Misorientations and Orientation Relationships between Crystals of Any Two Crystallographic Point Groups; Origins of Texture Memory in Steels; A Grain Boundary Analysis of Cemented Tungsten Carbides using OIM; The Effect of Grain and Phase Boundary Misorientation on Nucleation during Solid-State Phase Transformations in a Co-15Fe Alloy Microstructural Modification in a 15Cr-1 5Ni-2.2 Mo-Ti Modified Austenitic Stainless Steel through Twin Induced Grain Boundary Engineering |
| Record Nr. | UNINA-9910877543103321 |
| Hoboken, N.J., : Wiley, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Materials processing and texture [[electronic resource] ] : a collection of papers presented at the 15th International Conference on Textures of Materials (ICOTOM 15) June 1-6, 2008, Pittsburgh, Pennsylvania / / edited by A.D. Rollett
| Materials processing and texture [[electronic resource] ] : a collection of papers presented at the 15th International Conference on Textures of Materials (ICOTOM 15) June 1-6, 2008, Pittsburgh, Pennsylvania / / edited by A.D. Rollett |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, c2009 |
| Descrizione fisica | 1 online resource (850 p.) |
| Disciplina | 620.11292 |
| Altri autori (Persone) | RollettA. D (Anthony D.) |
| Collana | Ceramic transactions |
| Soggetto topico |
Materials - Texture
Metals - Texture Texture (Crystallography) |
| ISBN |
1-282-11348-8
9786612113482 0-470-44419-3 0-470-44418-5 |
| Classificazione | UQ 8500 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Materials Processing and Texture; Contents; Preface; Acknowledgments; FRICTION STIR WELDING AND PROCESSING; Texture Evolution during Friction Stir Welding of Stainless Steel; Texture Development in Aluminum Friction Stir Welds; Microstructural Studies of a Friction-Stir-Welded AA5052; Effect of Microstructure on Mechanical Properties of Friction-Welded Joints between Aluminum Alloys (6061, 5052) and 304 Stainless Steel; Effect of Texture on Fracture Limit Strain in Friction Stir Processed AZ31B Mg Alloy; Microstructure and Texture Analysis of Friction Stir Welds of Copper
TEXTURE AND ANISOTROPY IN STEELSThe Effects of Texture on the Corrosion Resistance of SS304 Stainless Steel; Microstructural Characterization of Dual Phase Steels by Means of Electron Microscopy; Grain Size Effect on the Tensile Behavior of a FeMnC TWIP Steel in Relation with the Microstructure and Texture Evolutions; Combination of Two X-Ray Diffraction Settings for Determining the Texture of Small Sheared Samples; Texture of Non-Oriented Rolled Steels by X-Ray and Electron Diffraction Effect of Coating Texture on Powdering Behavior of Industrially Produced Galvannealed Coating on IF, IFHS and HSQ Grade SteelsIncluding Elastical Anisotropy Due to Texture in a Finite Element Model for the Prediction of Residual Stresses in Welds; Texture and Microstructure Evolution in a Fe-Si CGO Sheet during the Processing Route before Secondary Recrystallization; TEM Study of the Inhibition Layer of Commercial Hot-Dip Galvanized Steels; Measurement of the Texture Sharpness in Grain-Oriented Electrical Steels Effects of Composition and Coiling Temperature on Precipitation and Texture Formation in a Few Interstitial Free High Strength SteelsMicrostructure and Texture Development in Warm Rolled High Strength IF Steels Containing Cu, P and B; Effect of Tin on the Texture of Nonoriented Electrical Steels; Effect of Cold Rolled Reduction on the Texture and Plastic Strain Ratio of 2205 Duplex Stainless Steel; Importance of Dislocation Substructures in Texture Control of Low Carbon Steel; Texture Control in Manufacturing Current and Future Grades of Low-Carbon Steel Sheet Relative Preference for Strain Localizations in Ultra Low Carbon SteelInfluence of Texture on Surface-Roughening during Press Forming in Ti Added High Purity Ferritic Stainless Steel Sheets; Effect of Tin on the Recrystallization Behavior and Texture of Grain Oriented Electrical Steels; EBSD lnvestigation of Phase Transformation in Low Carbon Steels; A Monte-Carlo Algorithm for the Zener Drag Effect in the Fe-3%Si Magnetic Alloys; Effect of Strain and Strain Path on Deformation Twinning and Strain Induced Martensite in AISI 316L and 304L Austenitic Stainless Steel Analysis of the Formation and Growth of Recrystallizing Grains in IF Steels by In-Situ EBSP |
| Record Nr. | UNINA-9910145256103321 |
| Hoboken, N.J., : Wiley, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Materials processing and texture : a collection of papers presented at the 15th International Conference on Textures of Materials (ICOTOM 15) June 1-6, 2008, Pittsburgh, Pennsylvania / / edited by A.D. Rollett
| Materials processing and texture : a collection of papers presented at the 15th International Conference on Textures of Materials (ICOTOM 15) June 1-6, 2008, Pittsburgh, Pennsylvania / / edited by A.D. Rollett |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, c2009 |
| Descrizione fisica | 1 online resource (850 p.) |
| Disciplina | 620.11292 |
| Altri autori (Persone) | RollettA. D (Anthony D.) |
| Collana | Ceramic transactions |
| Soggetto topico |
Materials - Texture
Metals - Texture Texture (Crystallography) |
| ISBN |
1-282-11348-8
9786612113482 0-470-44419-3 0-470-44418-5 |
| Classificazione | UQ 8500 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Materials Processing and Texture; Contents; Preface; Acknowledgments; FRICTION STIR WELDING AND PROCESSING; Texture Evolution during Friction Stir Welding of Stainless Steel; Texture Development in Aluminum Friction Stir Welds; Microstructural Studies of a Friction-Stir-Welded AA5052; Effect of Microstructure on Mechanical Properties of Friction-Welded Joints between Aluminum Alloys (6061, 5052) and 304 Stainless Steel; Effect of Texture on Fracture Limit Strain in Friction Stir Processed AZ31B Mg Alloy; Microstructure and Texture Analysis of Friction Stir Welds of Copper
TEXTURE AND ANISOTROPY IN STEELSThe Effects of Texture on the Corrosion Resistance of SS304 Stainless Steel; Microstructural Characterization of Dual Phase Steels by Means of Electron Microscopy; Grain Size Effect on the Tensile Behavior of a FeMnC TWIP Steel in Relation with the Microstructure and Texture Evolutions; Combination of Two X-Ray Diffraction Settings for Determining the Texture of Small Sheared Samples; Texture of Non-Oriented Rolled Steels by X-Ray and Electron Diffraction Effect of Coating Texture on Powdering Behavior of Industrially Produced Galvannealed Coating on IF, IFHS and HSQ Grade SteelsIncluding Elastical Anisotropy Due to Texture in a Finite Element Model for the Prediction of Residual Stresses in Welds; Texture and Microstructure Evolution in a Fe-Si CGO Sheet during the Processing Route before Secondary Recrystallization; TEM Study of the Inhibition Layer of Commercial Hot-Dip Galvanized Steels; Measurement of the Texture Sharpness in Grain-Oriented Electrical Steels Effects of Composition and Coiling Temperature on Precipitation and Texture Formation in a Few Interstitial Free High Strength SteelsMicrostructure and Texture Development in Warm Rolled High Strength IF Steels Containing Cu, P and B; Effect of Tin on the Texture of Nonoriented Electrical Steels; Effect of Cold Rolled Reduction on the Texture and Plastic Strain Ratio of 2205 Duplex Stainless Steel; Importance of Dislocation Substructures in Texture Control of Low Carbon Steel; Texture Control in Manufacturing Current and Future Grades of Low-Carbon Steel Sheet Relative Preference for Strain Localizations in Ultra Low Carbon SteelInfluence of Texture on Surface-Roughening during Press Forming in Ti Added High Purity Ferritic Stainless Steel Sheets; Effect of Tin on the Recrystallization Behavior and Texture of Grain Oriented Electrical Steels; EBSD lnvestigation of Phase Transformation in Low Carbon Steels; A Monte-Carlo Algorithm for the Zener Drag Effect in the Fe-3%Si Magnetic Alloys; Effect of Strain and Strain Path on Deformation Twinning and Strain Induced Martensite in AISI 316L and 304L Austenitic Stainless Steel Analysis of the Formation and Growth of Recrystallizing Grains in IF Steels by In-Situ EBSP |
| Altri titoli varianti |
Fifteenth International Conference on Textures of Materials
15th International Conference on Textures of Materials Collection of papers presented at the 15th International Conference on Textures of Materials (ICOTOM 15) June 1-6, 2008, Pittsburgh, Pennsylvania ICOTOM 15 |
| Record Nr. | UNINA-9910827019803321 |
| Hoboken, N.J., : Wiley, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Mechanical properties of ceramics [[electronic resource] /] / John B. Wachtman
| Mechanical properties of ceramics [[electronic resource] /] / John B. Wachtman |
| Autore | Wachtman J. B. <1928-> |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, c2009 |
| Descrizione fisica | 1 online resource (497 p.) |
| Disciplina |
620.1/40492
620.140492 |
| Altri autori (Persone) |
CannonW. Roger
MatthewsonM. John |
| Soggetto topico |
Ceramic materials - Mechanical properties
Ceramic materials - Electric properties |
| ISBN |
1-5231-1553-X
1-282-27995-5 9786612279959 0-470-45151-3 0-470-45150-5 |
| Classificazione |
UQ 8500
ZM 6100 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
MECHANICAL PROPERTIES OF CERAMICS; CONTENTS; Preface; Acknowledgments; 1 Stress and Strain; 1.1 Introduction; 1.2 Tensor Notation for Stress; 1.3 Stress in Rotated Coordinate System; 1.4 Principal Stress; 1.4.1 Principal Stresses in Three Dimensions; 1.5 Stress Invariants; 1.6 Stress Deviator; 1.7 Strain; 1.8 True Stress and True Strain; 1.8.1 True Strain; 1.8.2 True Stress; Problems; 2 Types of Mechanical Behavior; 2.1 Introduction; 2.2 Elasticity and Brittle Fracture; 2.3 Permanent Deformation; 3 Elasticity; 3.1 Introduction; 3.2 Elasticity of Isotropic Bodies
3.3 Reduced Notation for Stresses, Strains, and Elastic Constants3.4 Effect of Symmetry on Elastic Constants; 3.5 Orientation Dependence of Elastic Moduli in Single Crystals and Composites; 3.6 Values of Polycrystalline Moduli in Terms of Single-Crystal Constants; 3.7 Variation of Elastic Constants with Lattice Parameter; 3.8 Variation of Elastic Constants with Temperature; 3.9 Elastic Properties of Porous Ceramics; 3.10 Stored Elastic Energy; Problems; 4 Strength of Defect-Free Solids; 4.1 Introduction; 4.2 Theoretical Strength in Tension; 4.3 Theoretical Strength in Shear; Problems 5 Linear Elastic Fracture Mechanics5.1 Introduction; 5.2 Stress Concentrations; 5.3 Griffith Theory of Fracture of a Brittle Solid; 5.4 Stress at Crack Tip: An Estimate; 5.5 Crack Shape in Brittle Solids; 5.6 Irwin Formulation of Fracture Mechanics: Stress Intensity Factor; 5.7 Irwin Formulation of Fracture Mechanics: Energy Release Rate; 5.7.1 Relationship between G and K(I); 5.8 Some Useful Stress Intensity Factors; 5.9 The J Integral; 5.10 Cracks with Internal Loading; 5.11 Failure under Multiaxial Stress; Problems; 6 Measurements of Elasticity, Strength, and Fracture Toughness 6.1 Introduction6.2 Tensile Tests; 6.3 Flexure Tests; 6.3.1 Three-Point Bending; 6.3.2 Four-Point Bending; 6.3.3 Fracture Toughness Measurement by Bending; 6.4 Double-Cantilever-Beam Test; 6.5 Double-Torsion Test; 6.6 Indentation Test; 6.6.1 Direct Method; 6.6.2 Indirect Method; 6.6.3 Modified Method; 6.6.4 Summary of the Three Methods; 6.6.5 ASTM Standard C 1421 Method; 6.7 Biaxial Flexure Testing; 6.8 Elastic Constant Determination Using Vibrational and Ultrasonic Methods; Problems; 7 Statistical Treatment of Strength; 7.1 Introduction; 7.2 Statistical Distributions 7.3 Strength Distribution Functions7.3.1 Gaussian, or Normal, Distribution; 7.3.2 Weibull Distribution; 7.3.3 Comparison of the Normal and Weibull Distributions; 7.4 Weakest Link Theory; 7.5 Determining Weibull Parameters; 7.6 Effect of Specimen Size; 7.7 Adaptation to Bend Testing; 7.8 Safety Factors; 7.9 Example of Safe Stress Calculation; 7.10 Proof Testing; 7.11 Use of Pooled Fracture Data in Linear Regression Determination of Weibull Parameters; 7.12 Method of Maximum Likelihood in Weibull Parameter Estimation; 7.13 Statistics of Failure under Multiaxial Stress 7.14 Effects of Slow Crack Propagation and R-Curve Behavior on Statistical Distributions of Strength |
| Record Nr. | UNINA-9910139751103321 |
Wachtman J. B. <1928->
|
||
| Hoboken, N.J., : Wiley, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Mechanical properties of ceramics [[electronic resource] /] / John B. Wachtman
| Mechanical properties of ceramics [[electronic resource] /] / John B. Wachtman |
| Autore | Wachtman J. B. <1928-> |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, c2009 |
| Descrizione fisica | 1 online resource (497 p.) |
| Disciplina |
620.1/40492
620.140492 |
| Altri autori (Persone) |
CannonW. Roger
MatthewsonM. John |
| Soggetto topico |
Ceramic materials - Mechanical properties
Ceramic materials - Electric properties |
| ISBN |
1-5231-1553-X
1-282-27995-5 9786612279959 0-470-45151-3 0-470-45150-5 |
| Classificazione |
UQ 8500
ZM 6100 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
MECHANICAL PROPERTIES OF CERAMICS; CONTENTS; Preface; Acknowledgments; 1 Stress and Strain; 1.1 Introduction; 1.2 Tensor Notation for Stress; 1.3 Stress in Rotated Coordinate System; 1.4 Principal Stress; 1.4.1 Principal Stresses in Three Dimensions; 1.5 Stress Invariants; 1.6 Stress Deviator; 1.7 Strain; 1.8 True Stress and True Strain; 1.8.1 True Strain; 1.8.2 True Stress; Problems; 2 Types of Mechanical Behavior; 2.1 Introduction; 2.2 Elasticity and Brittle Fracture; 2.3 Permanent Deformation; 3 Elasticity; 3.1 Introduction; 3.2 Elasticity of Isotropic Bodies
3.3 Reduced Notation for Stresses, Strains, and Elastic Constants3.4 Effect of Symmetry on Elastic Constants; 3.5 Orientation Dependence of Elastic Moduli in Single Crystals and Composites; 3.6 Values of Polycrystalline Moduli in Terms of Single-Crystal Constants; 3.7 Variation of Elastic Constants with Lattice Parameter; 3.8 Variation of Elastic Constants with Temperature; 3.9 Elastic Properties of Porous Ceramics; 3.10 Stored Elastic Energy; Problems; 4 Strength of Defect-Free Solids; 4.1 Introduction; 4.2 Theoretical Strength in Tension; 4.3 Theoretical Strength in Shear; Problems 5 Linear Elastic Fracture Mechanics5.1 Introduction; 5.2 Stress Concentrations; 5.3 Griffith Theory of Fracture of a Brittle Solid; 5.4 Stress at Crack Tip: An Estimate; 5.5 Crack Shape in Brittle Solids; 5.6 Irwin Formulation of Fracture Mechanics: Stress Intensity Factor; 5.7 Irwin Formulation of Fracture Mechanics: Energy Release Rate; 5.7.1 Relationship between G and K(I); 5.8 Some Useful Stress Intensity Factors; 5.9 The J Integral; 5.10 Cracks with Internal Loading; 5.11 Failure under Multiaxial Stress; Problems; 6 Measurements of Elasticity, Strength, and Fracture Toughness 6.1 Introduction6.2 Tensile Tests; 6.3 Flexure Tests; 6.3.1 Three-Point Bending; 6.3.2 Four-Point Bending; 6.3.3 Fracture Toughness Measurement by Bending; 6.4 Double-Cantilever-Beam Test; 6.5 Double-Torsion Test; 6.6 Indentation Test; 6.6.1 Direct Method; 6.6.2 Indirect Method; 6.6.3 Modified Method; 6.6.4 Summary of the Three Methods; 6.6.5 ASTM Standard C 1421 Method; 6.7 Biaxial Flexure Testing; 6.8 Elastic Constant Determination Using Vibrational and Ultrasonic Methods; Problems; 7 Statistical Treatment of Strength; 7.1 Introduction; 7.2 Statistical Distributions 7.3 Strength Distribution Functions7.3.1 Gaussian, or Normal, Distribution; 7.3.2 Weibull Distribution; 7.3.3 Comparison of the Normal and Weibull Distributions; 7.4 Weakest Link Theory; 7.5 Determining Weibull Parameters; 7.6 Effect of Specimen Size; 7.7 Adaptation to Bend Testing; 7.8 Safety Factors; 7.9 Example of Safe Stress Calculation; 7.10 Proof Testing; 7.11 Use of Pooled Fracture Data in Linear Regression Determination of Weibull Parameters; 7.12 Method of Maximum Likelihood in Weibull Parameter Estimation; 7.13 Statistics of Failure under Multiaxial Stress 7.14 Effects of Slow Crack Propagation and R-Curve Behavior on Statistical Distributions of Strength |
| Record Nr. | UNINA-9910830735703321 |
|
Wachtman J. B. <1928->
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| Hoboken, N.J., : Wiley, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Mechanical properties of ceramics / / John B. Wachtman
| Mechanical properties of ceramics / / John B. Wachtman |
| Autore | Wachtman J. B. <1928-> |
| Edizione | [2nd ed. /] |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, c2009 |
| Descrizione fisica | 1 online resource (497 p.) |
| Disciplina |
620.1/40492
620.140492 |
| Altri autori (Persone) |
CannonW. Roger
MatthewsonM. John |
| Soggetto topico |
Ceramic materials - Mechanical properties
Ceramic materials - Electric properties |
| ISBN |
1-5231-1553-X
1-282-27995-5 9786612279959 0-470-45151-3 0-470-45150-5 |
| Classificazione |
UQ 8500
ZM 6100 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
MECHANICAL PROPERTIES OF CERAMICS; CONTENTS; Preface; Acknowledgments; 1 Stress and Strain; 1.1 Introduction; 1.2 Tensor Notation for Stress; 1.3 Stress in Rotated Coordinate System; 1.4 Principal Stress; 1.4.1 Principal Stresses in Three Dimensions; 1.5 Stress Invariants; 1.6 Stress Deviator; 1.7 Strain; 1.8 True Stress and True Strain; 1.8.1 True Strain; 1.8.2 True Stress; Problems; 2 Types of Mechanical Behavior; 2.1 Introduction; 2.2 Elasticity and Brittle Fracture; 2.3 Permanent Deformation; 3 Elasticity; 3.1 Introduction; 3.2 Elasticity of Isotropic Bodies
3.3 Reduced Notation for Stresses, Strains, and Elastic Constants3.4 Effect of Symmetry on Elastic Constants; 3.5 Orientation Dependence of Elastic Moduli in Single Crystals and Composites; 3.6 Values of Polycrystalline Moduli in Terms of Single-Crystal Constants; 3.7 Variation of Elastic Constants with Lattice Parameter; 3.8 Variation of Elastic Constants with Temperature; 3.9 Elastic Properties of Porous Ceramics; 3.10 Stored Elastic Energy; Problems; 4 Strength of Defect-Free Solids; 4.1 Introduction; 4.2 Theoretical Strength in Tension; 4.3 Theoretical Strength in Shear; Problems 5 Linear Elastic Fracture Mechanics5.1 Introduction; 5.2 Stress Concentrations; 5.3 Griffith Theory of Fracture of a Brittle Solid; 5.4 Stress at Crack Tip: An Estimate; 5.5 Crack Shape in Brittle Solids; 5.6 Irwin Formulation of Fracture Mechanics: Stress Intensity Factor; 5.7 Irwin Formulation of Fracture Mechanics: Energy Release Rate; 5.7.1 Relationship between G and K(I); 5.8 Some Useful Stress Intensity Factors; 5.9 The J Integral; 5.10 Cracks with Internal Loading; 5.11 Failure under Multiaxial Stress; Problems; 6 Measurements of Elasticity, Strength, and Fracture Toughness 6.1 Introduction6.2 Tensile Tests; 6.3 Flexure Tests; 6.3.1 Three-Point Bending; 6.3.2 Four-Point Bending; 6.3.3 Fracture Toughness Measurement by Bending; 6.4 Double-Cantilever-Beam Test; 6.5 Double-Torsion Test; 6.6 Indentation Test; 6.6.1 Direct Method; 6.6.2 Indirect Method; 6.6.3 Modified Method; 6.6.4 Summary of the Three Methods; 6.6.5 ASTM Standard C 1421 Method; 6.7 Biaxial Flexure Testing; 6.8 Elastic Constant Determination Using Vibrational and Ultrasonic Methods; Problems; 7 Statistical Treatment of Strength; 7.1 Introduction; 7.2 Statistical Distributions 7.3 Strength Distribution Functions7.3.1 Gaussian, or Normal, Distribution; 7.3.2 Weibull Distribution; 7.3.3 Comparison of the Normal and Weibull Distributions; 7.4 Weakest Link Theory; 7.5 Determining Weibull Parameters; 7.6 Effect of Specimen Size; 7.7 Adaptation to Bend Testing; 7.8 Safety Factors; 7.9 Example of Safe Stress Calculation; 7.10 Proof Testing; 7.11 Use of Pooled Fracture Data in Linear Regression Determination of Weibull Parameters; 7.12 Method of Maximum Likelihood in Weibull Parameter Estimation; 7.13 Statistics of Failure under Multiaxial Stress 7.14 Effects of Slow Crack Propagation and R-Curve Behavior on Statistical Distributions of Strength |
| Record Nr. | UNINA-9910877449703321 |
|
Wachtman J. B. <1928->
|
||
| Hoboken, N.J., : Wiley, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||