Engineering materials science : properties, uses, degradation, and remediation /

Exhaustive, authoritative and comprehensive, using 160 statistical tables, this book addresses the fundamental structure of materials and remediation, and looks at the properties of water and water-induced degradation and deterioration, with chapters on moisture effects in buildings and materials, c...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: McArthur, Hugh, 1936-
Otros Autores: Spalding, Duncan
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Cambridge [England] : Woodhead Publishing, 2011.
Temas:
Materials science.
Materials > Deterioration.
Science des mat�eriaux.
Mat�eriaux > D�et�erioration.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Engineering Materials Science: Properties, Uses, Degradation and Remediation; Copyright Page; Table of Contents; ACKNOWLEDGEMENTS; SOURCES OF INFORMATION; PREFACE; CHAPTER 1. STRUCTURE OF MATERIALS; 1.1 INTRODUCTION; 1.2 NOMENCLATURE AND COMPOSITION; 1.3 ATOMIC THEORY; 1.4 CHARACTERISTICS OF CHEMICAL ELEMENTS; 1.5 PERIODIC TABLE OF ELEMENTS; 1.6 ELECTRON CONFIGURATION OF ELEMENTS; 1.7 TRENDS ACROSS A PERIOD IN THE PERIODIC TABLE; 1.8 TRENDS WITHIN A GROUP IN THE PERIODIC TABLE; 1.9 CHEMICAL BONDS; 1.10 METALLIC BONDS; 1.11 COVALENT BONDS; 1.12 IONIC BONDS; 1.13 MIXED BONDING
  • 1.14 VAN DER WAALS FORCES (OR 'BONDS')1.15 STRUCTURE OF SOLIDS; 1.16 METALLIC STRUCTURES; 1.17 COVALENT STRUCTURES; 1.18 IONIC STRUCTURES; 1.19 ACIDS AND ALKALIS (BASES); 1.20 RADIOACTMTY; 1.21 LAND FILL GASES; CHAPTER 2. STATES OF MATTER AND PHYSICAL CONSTANTS; 2.1 INTRODUCTION; 2.2 GASES; 2.3 LIQUIDS; 2.4 SOLIDS; 2.5 CHANGE OF PHASE AND LATENT HEAT; 2.6 LIQUID TO SOLID CHANGE OF PHASE; 2.7 LIQUID TO GAS CHANGE OF PHASE; 2.8 DEFORMATION; 2.9 SOLUTIONS; 2.10 THIXOTROPY AND DILATANCY; CHAPTER 3. MECHANICAL PROPERTIES AND TESTING; 3.1 INTRODUCTION; 3.2 TENSILE TESTING; 3.3 COMPRESSION TESTING
  • 3.4 SURFACE PROPERTIES3.5 TIME DEPENDENT MECHANICAL PROPERTIES; 3.6 MECHANISMS RESULTING IN CRACKING IN MATERIALS; 3.7 IN SERVICE INSPECTION AND TESTING; 3.8 REFERENCES; CHAPTER 4. WATER; 4.1 INTRODUCTION; 4.2 WATER SUPPLIES; 4.3 HARD AND SOFT WATER; 4.4 WATER SOFTENING; 4.5 REFERENCES; CHAPTER 5. MOISTURE EFFECTS IN BUILDINGS; 5.1 INTRODUCTION; 5.2 MOISTURE SOURCES; 5.3 MOISTURE TRANSPORT AND STORAGE; 5.4 CAPILLARITY (LIQUID WATER); 5.5 ABSORPTION (LIQUID WATER); 5.6 ADSORPTION (WATER VAPOUR); 5.7 CAPILLARY CONDENSATION; 5.8 MOISTURE CONTROL IN NEW BUlLDINGS
  • 5.9 PENETRATING DAMPNESS (LIQUID WATER)5.10 RISING DAMP (LIQUID WATER); 5.11 DAMP DETECTION EQUIPMENT; 5.12 CONDENSATION (WATER VAPOUR); 5.13 REFERENCES; CHAPTER 6. MOISTURE EFFECTS IN MATERIALS; 6.1 INTRODUCTION; 6.2 STRUCTURE OF POROUS MATERIALS; 6.3 WEATHERING; 6.4 MOISTURE INDUCED DIMENSIONAL CHANGES; 6.5 BULKlNG; 6.6 FROST DAMAGE; 6.7 WATER SOLUBLE SALTS; 6.8 REFERENCES; CHAPTER 7. MASONRY MATERIALS; 7.1 INTRODUCTION; 7.2 BRICKS AND BLOCKS; 7.3 CLAY BRICKS; 7.4 REFRACTORIES; 7.5 CALCIUM SILICATE BRICKS; 7.6 CONCRETE BRICKS; 7.7 CONCRETE BLOCKS; 7.8 CLAY BLOCKS; 7.9 CEMENTS
  • 7.10 NON-HYDRAULIC CEMENTS. LIME. 7.11 HYDRAULIC CEMENTS; 7.12 HISTORICAL DEVELOPMENT OF HYDRAULIC CEMENTS; 7.13 CLASSIFICATION OF HYDRAULIC CEMENTS; 7.14 TYPES OF HYDRAULIC CEMENT; 7.15 PORTLAND CEMENTS; 7.16 HYDRATION REACTIONS FOR PORTLAND CEMENT; 7.17 STRUCTURE OF HARDENED PORTLAND CEMENT PASTE; 7.18 DEGRADATION OF HARDENED PORTLAND CEMENT; 7.19 MORTAR; 7.20 RENDER; 7.21 REFERENCES; CHAPTER 8. CONCRETE; 8.1 INTRODUCTION; 8.2 WATER; 8.3 AGGREGATES; 8.4 NATURAL AGGREGATES; 8.5 AGGREGATE REQUIREMENTS FOR USE IN CONCRETE; 8.6 TESTS FOR AGGREGATES; 8.7 ADMIXTURES; 8.8 ADDITIONS

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