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Advanced structural ceramics [[electronic resource] /] / Bikramjit Basu [and] Kantesh Balani
| Advanced structural ceramics [[electronic resource] /] / Bikramjit Basu [and] Kantesh Balani |
| Autore | Basu Bikramjit |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, 2011 |
| Descrizione fisica | 1 online resource (502 p.) |
| Disciplina |
620.1/4
620.14 |
| Altri autori (Persone) | BalaniKantesh |
| Soggetto topico |
Ceramic materials
Ceramic-matrix composites |
| ISBN |
1-283-29460-5
9786613294609 1-118-03729-4 1-118-03730-8 1-118-03728-6 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Advanced Structural Ceramics; Contents; Preface; Foreword; About the Authors; Section One: Fundamentals of Nature and Characteristics of Ceramics; Chapter 1: Ceramics: Definition and Characteristics; 1.1 MATERIALS CLASSIFICATION; 1.2 HISTORICAL PERSPECTIVE; DEFINITION AND CLASSIFICATION OF CERAMICS; 1.3 PROPERTIES OF STRUCTURAL CERAMICS; 1.4 APPLICATIONS OF STRUCTURAL CERAMICS; REFERENCES; Chapter 2: Bonding, Structure, and Physical Properties; 2.1 PRIMARY BONDING; 2.1.1 Ionic Bonding; 2.1.2 Covalent Bonding; 2.1.3 Pauling's Rules; 2.1.4 Secondary Bonding; 2.2 STRUCTURE
2.2.1 NaCl-type Rock-Salt Structure2.2.2 ZnS-Type Wurtzite Structure; 2.2.3 ZnS-Type Zinc Blende Structure; 2.2.4 CsCl Cesium Chloride Structure; 2.2.5 CaF2 Fluorite Structure; 2.2.6 Antifluorite Structure; 2.2.7 Rutile Structure; 2.2.8 Al2O3 Corundum Structure; 2.2.9 Spinel Structure; 2.2.10 Perovskite Structure; 2.2.11 Ilmenite Structure; 2.2.12 Silicate Structures; 2.3 OXIDE CERAMICS; 2.4 NON-OXIDE CERAMICS; REFERENCES; Chapter 3: Mechanical Behavior of Ceramics; 3.1 THEORY OF BRITTLE FRACTURE; 3.1.1 Theoretical Cohesive Strength; 3.1.2 Inglis Theory; 3.1.3 Griffith's Theory 3.1.4 Irwin's Theory3.1.5 Concept of Fracture Toughness; 3.2 CRACKING IN BRITTLE MATERIALS; 3.3 STRENGTH VARIABILITY OF CERAMICS; 3.4 PHYSICS OF THE FRACTURE OF BRITTLE SOLIDS; 3.4.1 Weakest Link Fracture Statistics; 3.5 BASIC MECHANICAL PROPERTIES; 3.5.1 Vickers Hardness; 3.5.2 Instrumented Indentation Measurements; 3.5.3 Compressive Strength; 3.5.4 Flexural Strength; 3.5.5 Elastic Modulus; 3.5.6 Fracture Toughness; 3.5.6.1 Long Crack Methods; 3.5.6.2 Fracture Toughness Evaluation Using Indentation Cracking; 3.6 TOUGHENING MECHANISMS; REFERENCES; Section Two: Processing of Ceramics Chapter 4: Synthesis of High-Purity Ceramic Powders4.1 SYNTHESIS OF ZrO2 POWDERS; 4.2 SYNTHESIS OF TiB2 POWDERS; 4.3 SYNTHESIS OF HYDROXYAPATITE POWDERS; 4.4 SYNTHESIS OF HIGH-PURITY TUNGSTEN CARBIDE POWDERS; REFERENCES; Chapter 5: Sintering of Ceramics; 5.1 INTRODUCTION; 5.2 CLASSIFICATION; 5.3 THERMODYNAMIC DRIVING FORCE; 5.4 SOLID-STATE SINTERING; 5.5 COMPETITION BETWEEN DENSIFICATION AND GRAIN GROWTH; 5.6 LIQUID-PHASE SINTERING; 5.7 IMPORTANT FACTORS INFLUENCING THE SINTERING PROCESS; 5.8 POWDER METALLURGICAL PROCESSES; 5.8.1 Ball Milling; 5.8.2 Compaction; 5.8.2.1 Cold Pressing 5.8.2.2 Cold Isostatic Pressing5.8.3 Pressureless Sintering; 5.8.4 Reactive Sintering; 5.8.5 Microwave Sintering; REFERENCES; Chapter 6: Thermomechanical Sintering Methods; 6.1 HOT PRESSING; 6.2 EXTRUSION; 6.3 HOT ISOSTATIC PRESSING; 6.4 HOT ROLLING; 6.5 SINTER FORGING; 6.6 SPARK PLASMA SINTERING; REFERENCES; Section Three: Surface Coatings; Chapter 7: Environment and Engineering of Ceramic Materials; 7.1 ENVIRONMENTAL INFLUENCE ON PROPERTIES OF ENGINEERING CERAMICS; 7.1.1 Oxidation Resistance; 7.1.2 Corrosion Resistance; 7.1.3 Creep Resistance; 7.1.4 Hard Bearing Surfaces 7.1.5 Thermal and Electrical Insulation |
| Record Nr. | UNINA-9910139572103321 |
Basu Bikramjit
|
||
| Hoboken, N.J., : Wiley, 2011 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advanced structural ceramics / / Bikramjit Basu [and] Kantesh Balani
| Advanced structural ceramics / / Bikramjit Basu [and] Kantesh Balani |
| Autore | Basu Bikramjit |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, 2011 |
| Descrizione fisica | 1 online resource (502 p.) |
| Disciplina | 620.1/4 |
| Altri autori (Persone) | BalaniKantesh |
| Soggetto topico |
Ceramic materials
Ceramic-matrix composites |
| ISBN |
1-283-29460-5
9786613294609 1-118-03729-4 1-118-03730-8 1-118-03728-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Advanced Structural Ceramics; Contents; Preface; Foreword; About the Authors; Section One: Fundamentals of Nature and Characteristics of Ceramics; Chapter 1: Ceramics: Definition and Characteristics; 1.1 MATERIALS CLASSIFICATION; 1.2 HISTORICAL PERSPECTIVE; DEFINITION AND CLASSIFICATION OF CERAMICS; 1.3 PROPERTIES OF STRUCTURAL CERAMICS; 1.4 APPLICATIONS OF STRUCTURAL CERAMICS; REFERENCES; Chapter 2: Bonding, Structure, and Physical Properties; 2.1 PRIMARY BONDING; 2.1.1 Ionic Bonding; 2.1.2 Covalent Bonding; 2.1.3 Pauling's Rules; 2.1.4 Secondary Bonding; 2.2 STRUCTURE
2.2.1 NaCl-type Rock-Salt Structure2.2.2 ZnS-Type Wurtzite Structure; 2.2.3 ZnS-Type Zinc Blende Structure; 2.2.4 CsCl Cesium Chloride Structure; 2.2.5 CaF2 Fluorite Structure; 2.2.6 Antifluorite Structure; 2.2.7 Rutile Structure; 2.2.8 Al2O3 Corundum Structure; 2.2.9 Spinel Structure; 2.2.10 Perovskite Structure; 2.2.11 Ilmenite Structure; 2.2.12 Silicate Structures; 2.3 OXIDE CERAMICS; 2.4 NON-OXIDE CERAMICS; REFERENCES; Chapter 3: Mechanical Behavior of Ceramics; 3.1 THEORY OF BRITTLE FRACTURE; 3.1.1 Theoretical Cohesive Strength; 3.1.2 Inglis Theory; 3.1.3 Griffith's Theory 3.1.4 Irwin's Theory3.1.5 Concept of Fracture Toughness; 3.2 CRACKING IN BRITTLE MATERIALS; 3.3 STRENGTH VARIABILITY OF CERAMICS; 3.4 PHYSICS OF THE FRACTURE OF BRITTLE SOLIDS; 3.4.1 Weakest Link Fracture Statistics; 3.5 BASIC MECHANICAL PROPERTIES; 3.5.1 Vickers Hardness; 3.5.2 Instrumented Indentation Measurements; 3.5.3 Compressive Strength; 3.5.4 Flexural Strength; 3.5.5 Elastic Modulus; 3.5.6 Fracture Toughness; 3.5.6.1 Long Crack Methods; 3.5.6.2 Fracture Toughness Evaluation Using Indentation Cracking; 3.6 TOUGHENING MECHANISMS; REFERENCES; Section Two: Processing of Ceramics Chapter 4: Synthesis of High-Purity Ceramic Powders4.1 SYNTHESIS OF ZrO2 POWDERS; 4.2 SYNTHESIS OF TiB2 POWDERS; 4.3 SYNTHESIS OF HYDROXYAPATITE POWDERS; 4.4 SYNTHESIS OF HIGH-PURITY TUNGSTEN CARBIDE POWDERS; REFERENCES; Chapter 5: Sintering of Ceramics; 5.1 INTRODUCTION; 5.2 CLASSIFICATION; 5.3 THERMODYNAMIC DRIVING FORCE; 5.4 SOLID-STATE SINTERING; 5.5 COMPETITION BETWEEN DENSIFICATION AND GRAIN GROWTH; 5.6 LIQUID-PHASE SINTERING; 5.7 IMPORTANT FACTORS INFLUENCING THE SINTERING PROCESS; 5.8 POWDER METALLURGICAL PROCESSES; 5.8.1 Ball Milling; 5.8.2 Compaction; 5.8.2.1 Cold Pressing 5.8.2.2 Cold Isostatic Pressing5.8.3 Pressureless Sintering; 5.8.4 Reactive Sintering; 5.8.5 Microwave Sintering; REFERENCES; Chapter 6: Thermomechanical Sintering Methods; 6.1 HOT PRESSING; 6.2 EXTRUSION; 6.3 HOT ISOSTATIC PRESSING; 6.4 HOT ROLLING; 6.5 SINTER FORGING; 6.6 SPARK PLASMA SINTERING; REFERENCES; Section Three: Surface Coatings; Chapter 7: Environment and Engineering of Ceramic Materials; 7.1 ENVIRONMENTAL INFLUENCE ON PROPERTIES OF ENGINEERING CERAMICS; 7.1.1 Oxidation Resistance; 7.1.2 Corrosion Resistance; 7.1.3 Creep Resistance; 7.1.4 Hard Bearing Surfaces 7.1.5 Thermal and Electrical Insulation |
| Record Nr. | UNINA-9910820360703321 |
|
Basu Bikramjit
|
||
| Hoboken, N.J., : Wiley, 2011 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Biosurfaces : a materials science and engineering perspective / / edited by Kantesh Balani [and three others] ; contributors, Arvind Agarwal [and seventeen others]
| Biosurfaces : a materials science and engineering perspective / / edited by Kantesh Balani [and three others] ; contributors, Arvind Agarwal [and seventeen others] |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , 2015 |
| Descrizione fisica | 1 online resource (397 p.) |
| Disciplina | 620/.44 |
| Soggetto topico |
Surfaces (Technology)
Biomedical materials |
| ISBN |
1-118-95064-X
1-118-95062-3 1-118-95063-1 |
| Classificazione | TEC021000SCI013050TEC009010 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover; Contents; Foreword; Preface; Contributors; Chapter 1 INTRODUCTION TO BIOMATERIALS; 1.1 Introduction; 1.2 Classification of Biomaterials; 1.2.1 Polymers; 1.2.2 Silicone Biomaterials; 1.2.3 Metals; 1.2.4 Ceramics; 1.2.5 Mechanical Properties of Ceramics; 1.3 Summary; Questions; References; Chapter 2 TISSUE INTERACTION WITH BIOMATERIALS; 2.1 Introduction; 2.2 Protein Adsorption and Cell Adhesion; 2.2.1 Cell Adhesion; 2.3 Cell Migration; 2.4 Controlled Cell Deposition; 2.4.1 Hydrophobicity; 2.4.2 Material Chemistry and Surface Charge; 2.4.3 Surface Topography and Roughness
2.5 Extracellular Matrix2.6 Biomineralization; 2.6.1 Inorganic Structure of Life; 2.6.2 The Major Groups of Biominerals; 2.6.3 Types of Biomineralization; 2.6.4 Biomineral Types and Functions; Questions; References; Chapter 3 HOST RESPONSE OF IMPLANTED BIOMATERIALS; 3.1 Immune Response to Implanted Biomaterials; 3.1.1 Introduction; 3.1.2 Activation of the Immune System; 3.1.3 Cells of the Immune System; 3.1.4 Antibodies; 3.1.5 Antigens; 3.1.6 Antigen Processing and Presentation; 3.2 Transplant Immunology; 3.3 Biocompatibility; 3.3.1 Definition; 3.3.2 In vitro and in vivo Tests; Exercises ReferencesChapter 4 FUNDAMENTALS OF SURFACE MODIFICATION; 4.1 Preamble; 4.2 Introduction; 4.3 Surface Properties of Biomaterials; 4.3.1 Protein Adsorption; 4.3.2 Cell Adhesion Ability; 4.3.3 Biocompatibility; 4.3.4 Biomimetics; 4.3.5 Biodegradation; 4.3.6 Hydrophobic and Hydrophilic Surfaces; 4.4 Surface Modifications; 4.4.1 Objectives of Surface Modification of Biomaterials; 4.4.2 Methods of Surface Modifications; 4.5 Applications; Questions; References; Chapter 5 MULTI-LENGTH SCALE HIERARCHY IN NATURAL MATERIALS; 5.1 Introduction; 5.2 Multi-Length-Scale Hierarchy; 5.3 Human Bone 5.4 Turtle Shell5.5 Wood; 5.6 Silk; 5.7 Nacre; 5.8 Gecko-Feet; 5.8.1 Synthesis of Gecko-Foot-Like Adhesives; 5.9 Lotus Leaf; 5.9.1 Mimicking Lotus Leaf Structure; Questions; References; Chapter 6 SUPERHYDROPHOBIC SURFACES; 6.1 Introduction; 6.2 Surfaces and Superhydrophobicity in Nature; 6.3 Classification of Surfaces; 6.3.1 Learning from Nature; 6.3.2 Role of Chemical Composition and Two-Level Roughness; 6.3.3 Mechanical Aspects of Surfaces; 6.4 Mechanics and Nature of Wetting; 6.5 Fabrication of Artificial Superhydrophobic Surfaces; 6.5.1 Soft Lithographic Imprinting; 6.5.2 Plasma Treatment 6.5.3 Sol-Gel Technique6.5.4 Combination Based on Chemical Vapor Deposition; 6.5.5 Electrospinning; 6.6 Preparation of Metallic Superhydrophobic Surfaces; 6.7 Controlled Wettability Surfaces (CWS); 6.8 Conclusions; Questions; References; Chapter 7 SURFACE ENGINEERING AND MODIFICATION FOR BIOMEDICAL APPLICATIONS; 7.1 Corrosion of Biomaterials and Need for Surface Coating for Biomedical Applications; 7.2 Surface Reactivity and Body Cell Response; 7.3 Key Requirements of Surface Coating; 7.3.1 Surface Roughness; 7.3.2 Porosity; 7.3.3 Cell Adhesion and Growth; 7.3.4 Contamination/Leaching 7.3.5 Coating Thickness and Microstructure |
| Record Nr. | UNINA-9910140490103321 |
| Hoboken, New Jersey : , : Wiley, , 2015 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Biosurfaces : a materials science and engineering perspective / / edited by Kantesh Balani [and three others] ; contributors, Arvind Agarwal [and seventeen others]
| Biosurfaces : a materials science and engineering perspective / / edited by Kantesh Balani [and three others] ; contributors, Arvind Agarwal [and seventeen others] |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , 2015 |
| Descrizione fisica | 1 online resource (397 p.) |
| Disciplina | 620/.44 |
| Soggetto topico |
Surfaces (Technology)
Biomedical materials |
| ISBN |
1-118-95064-X
1-118-95062-3 1-118-95063-1 |
| Classificazione | TEC021000SCI013050TEC009010 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover; Contents; Foreword; Preface; Contributors; Chapter 1 INTRODUCTION TO BIOMATERIALS; 1.1 Introduction; 1.2 Classification of Biomaterials; 1.2.1 Polymers; 1.2.2 Silicone Biomaterials; 1.2.3 Metals; 1.2.4 Ceramics; 1.2.5 Mechanical Properties of Ceramics; 1.3 Summary; Questions; References; Chapter 2 TISSUE INTERACTION WITH BIOMATERIALS; 2.1 Introduction; 2.2 Protein Adsorption and Cell Adhesion; 2.2.1 Cell Adhesion; 2.3 Cell Migration; 2.4 Controlled Cell Deposition; 2.4.1 Hydrophobicity; 2.4.2 Material Chemistry and Surface Charge; 2.4.3 Surface Topography and Roughness
2.5 Extracellular Matrix2.6 Biomineralization; 2.6.1 Inorganic Structure of Life; 2.6.2 The Major Groups of Biominerals; 2.6.3 Types of Biomineralization; 2.6.4 Biomineral Types and Functions; Questions; References; Chapter 3 HOST RESPONSE OF IMPLANTED BIOMATERIALS; 3.1 Immune Response to Implanted Biomaterials; 3.1.1 Introduction; 3.1.2 Activation of the Immune System; 3.1.3 Cells of the Immune System; 3.1.4 Antibodies; 3.1.5 Antigens; 3.1.6 Antigen Processing and Presentation; 3.2 Transplant Immunology; 3.3 Biocompatibility; 3.3.1 Definition; 3.3.2 In vitro and in vivo Tests; Exercises ReferencesChapter 4 FUNDAMENTALS OF SURFACE MODIFICATION; 4.1 Preamble; 4.2 Introduction; 4.3 Surface Properties of Biomaterials; 4.3.1 Protein Adsorption; 4.3.2 Cell Adhesion Ability; 4.3.3 Biocompatibility; 4.3.4 Biomimetics; 4.3.5 Biodegradation; 4.3.6 Hydrophobic and Hydrophilic Surfaces; 4.4 Surface Modifications; 4.4.1 Objectives of Surface Modification of Biomaterials; 4.4.2 Methods of Surface Modifications; 4.5 Applications; Questions; References; Chapter 5 MULTI-LENGTH SCALE HIERARCHY IN NATURAL MATERIALS; 5.1 Introduction; 5.2 Multi-Length-Scale Hierarchy; 5.3 Human Bone 5.4 Turtle Shell5.5 Wood; 5.6 Silk; 5.7 Nacre; 5.8 Gecko-Feet; 5.8.1 Synthesis of Gecko-Foot-Like Adhesives; 5.9 Lotus Leaf; 5.9.1 Mimicking Lotus Leaf Structure; Questions; References; Chapter 6 SUPERHYDROPHOBIC SURFACES; 6.1 Introduction; 6.2 Surfaces and Superhydrophobicity in Nature; 6.3 Classification of Surfaces; 6.3.1 Learning from Nature; 6.3.2 Role of Chemical Composition and Two-Level Roughness; 6.3.3 Mechanical Aspects of Surfaces; 6.4 Mechanics and Nature of Wetting; 6.5 Fabrication of Artificial Superhydrophobic Surfaces; 6.5.1 Soft Lithographic Imprinting; 6.5.2 Plasma Treatment 6.5.3 Sol-Gel Technique6.5.4 Combination Based on Chemical Vapor Deposition; 6.5.5 Electrospinning; 6.6 Preparation of Metallic Superhydrophobic Surfaces; 6.7 Controlled Wettability Surfaces (CWS); 6.8 Conclusions; Questions; References; Chapter 7 SURFACE ENGINEERING AND MODIFICATION FOR BIOMEDICAL APPLICATIONS; 7.1 Corrosion of Biomaterials and Need for Surface Coating for Biomedical Applications; 7.2 Surface Reactivity and Body Cell Response; 7.3 Key Requirements of Surface Coating; 7.3.1 Surface Roughness; 7.3.2 Porosity; 7.3.3 Cell Adhesion and Growth; 7.3.4 Contamination/Leaching 7.3.5 Coating Thickness and Microstructure |
| Record Nr. | UNINA-9910812902703321 |
| Hoboken, New Jersey : , : Wiley, , 2015 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||