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Cementitious Materials Science 胶凝材料学
作者
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出版日期
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2018/01/01
閱讀格式
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PDF
ISBN
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9787562958796
本書以通用矽酸鹽水泥為主,按品種闡述各類膠凝材料的組成、結構與性能的關係,介紹了膠凝材料的水化硬化機理以及改善硬化體結構與性能的途徑。對石膏、石灰、鎂質膠凝材料的生產和應用技術,以及混合材料的組成、特性等也做了詳細介紹。
- Preface
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Chapter 0 Introduction
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0.1 Definition and Classification of Cementitious Materials
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0.2 The Role of Cementitious Materials in National Economy
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0.3 The Brief History of Cementitious Materials
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0.4 The Development of Cementitious Materials Science
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Chapter 1 Common Portland Cement
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1.1 The Invention and Production of Cement
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1.1.1 The Invention of Cement
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1.1.2 The Process of Cement
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1.2 Composition of Portland Cement Clinker
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1.2.1 Chemical and Mineral Composition of Clinker
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1.2.2 Modulus Value of Clinker
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1.2.3 Calculation and Conversion of Mineral Composition of Clinker
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1.3 Raw Materials and Raw Materials Proportioning of Portland Cement
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1.3.1 Raw Materials of Cement
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1.3.2 Clinker Composition Design
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1.3.3 Proportioning Calculation of Raw Materials
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1.4 Calcination of Portland Cement Clinker
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1.4.1 Drying and Dehydration
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1.4.2 Decomposition of Carbonate
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1.4.3 Solid phase Reaction
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1.4.4 Calcination of Clinker
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1.4.5 Clinker Cooling
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1.4.6 The Role of Other Components
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1.4.7 Main Equipments for Clinker Calcination
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1.5 Production and Standards for Common Portland Cement
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1.5.1 Cement Admixture
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1.5.2 Definition Classification and Specifications for Common Portland Cement
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1.5.3 Portland Limestone Cement
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1.5.4 Grinding of Cement
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1.6 Hydration and Hardening of General Purpose Portland Cemente
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1.6.1 Hydration of Cement Clinkers
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1.6.2 Hydration of Portland cement
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1.6.3 Hydration and Hardening of Portland Cement with Supplementary Cementitious Materials
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1.6.4 Hydration Rate
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1.6.5 Hardened Cement Paste
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1.7 Properties of Ordinary Portland Cement
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1.7.1 Density
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1.7.2 Fineness
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1.7.3 Water Demand (Consistency Fluidity)
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1.7.4 Setting Time
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1.7.5 Strength
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1.7.6 Volume Change
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1.7.7 Water Retention and Bleeding
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1.7.8 Hydration Heat
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1.7.9 Heat Resistance
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1.7.10 Permeability Resistance
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1.7.11 Frost Resistance
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1.7.12 Erosion Resistance
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Problems
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Chapter 2 Characteristic Cements and Special Cement
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2.1 Aluminate and High-temperature Resistant Cement
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2.1.1 Aluminate Cement
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2.1.2 Refractory Castable of Phosphoric Acid and Phosphate
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2.1.3 Refractory Castable of Water Glass
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2.2 Fast Hardening and High Strength Cement
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2.2.1 Fast Hardening Portland Cement
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2.2.2 Fast Hardening Sulphoaluminate Cement
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2.2.3 Fast Hardening Alumin of errite Cement
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2.2.4 Rapid Hardening Fluoroaluminate Cement
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2.2.5 Rapid Hardening and High Strength Aluminate Cement
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2.2.6 Super-fast Hardening and Adjustable Setting Aluminate Cement
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2.2.7 Special High-strength Cement
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2.3 Sulfate-resistant Cement Moderate Heat and Low Heat Cement and Roads Cement
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2.3.1 Sulfate-resistant Cement
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2.3.2 Moderate- and Low-heat Portland Cement
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2.3.3 Low Heat and Micro Expanding Cement
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2.3.4 Low Heat Slag Portland Cement
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2.3.5 Road Portland Cement
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2.3.6 Steel Slag Cement for Pavement
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2.4 Expansive and Self-stressing Cements
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2.4.1 Basic Principle of Expansive Cement Production
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2.4.2 Types of Expansive Cement
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2.4.3 Production Processes and properties
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2.5 Oil Well Cement
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2.6 Decoration Cement
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2.6.1 White Portland Cement
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2.6.2 Color Cement
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2.7 Masonry Cement
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2.7.1 Chinese Standards for Masonry Cement
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2.7.2 Industrial Standards for Steel Slag Masonry Cement
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2.8 Radiation-proof Cement
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2.8.1 Barium Cement
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2.8.2 Boron Containing Cement
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2.8.3 Strontium Cement
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2.8.4 Conducting and Magnetic Cement
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2.8.5 Non-magnetic Cement
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2.9 Acid-proof Cement
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2.9.1 Water Glass Acid-proof Cement
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2.9.2 Sulfurous Acid-proof Cement
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2.9.3 Polymer Acid-proof Cement
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2.10 Low Alkalinity Sulphoaluminate Cement
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Problems
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Chapter 3 Gypsum
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3.1 Raw Materials for Production of Gypsum
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3.1.1 Natural Gypsum
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3.1.2 Industrial Byproduct Gypsums
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3.2 Production of Gypsum Cementitious Materials
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3.2.1 Dehydration Transformation of Gypsum
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3.2.2 Preparation of Hemihydrate Gypsum
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3.3 Building Gypsum
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3.3.1 Production of Building Gypsum
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3.3.2 Performance and Influencing Factors of Building Gypsum
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3.4 Hydration and Hardening Process of Hemihydrate Gypsum
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3.4.1 Hydration of Gypsum Cementitious Materials
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3.4.2 Hydration and Mechanism of Setting and Hardening of Dehydrated Phases
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3.4.3 Factors Influence Hydration of Hemihydrate Gypsum
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3.4.4 Hardening of Gypsum Paste
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3.5 Activation of Anhydrite and Tts Applications
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3.5.1 Activation Methods of Anhydrite
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3.5.2 Anhydrite Cementing Materials
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3.6 Structure and Properties of Hardened Gypsum Paste
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3.6.1 Structure of Hardened Gypsum Paste
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3.6.2 Strength of Hardened Gypsum Paste
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3.6.3 Water Resistance of Hardened Gypsum Paste
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3.7 Applications of Gypsum Cementitious Materials
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3.7.1 Gypsum Cementitious Materials
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3.7.2 Gypsum Products
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3.8 Acceptance Check Storage and Transportation of Gypsum
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Problems
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Chapter 4 Lime
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4.1 Raw Materials for Production of Lime
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4.2 Production of Lime
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4.2.1 Calcination of Calcium Carbonate
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4.2.2 Types of Lime
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4.2.3 Characteristics of Architectural Lime
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4.2.4 Technical Specifications for Architectural Lime
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4.2.5 Activity of Lime
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4.3 Hydration of Lime
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4.3.1 Hydration of Lime
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4.3.2 Characteristics of Lime Hydration
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4.4 Structure Formation of Lime Paste
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4.4.1 Dissolving and Dispersing of Lime by Water Action
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4.4.2 Setting Structure Formation of Lime Paste
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4.4.3 Crystalline Structure Formation of Lime Paste
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4.5 Hardening of Lime Paste
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4.5.1 Crystallization and Attached Strength by Drying
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4.5.2 Carbonization
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4.6 Applications of Lime
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4.6.1 Manufacture of Architectural Quicklime Powders
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4.6.2 Production of Slaked Lime Powder or Slaked Lime Slurry
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4.6.3 Preparation of Lime Mortar and Grout
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4.6.4 Preparation of Lime Soil and Trinity Mixture Fill
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4.6.5 Production of Silicate Products
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4.6.6 Manufacture of Carbonized Products
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4.7 Acceptance Check Storage Safekeeping and Transportation of Lime
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Problems
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Chapter 5 Magnesia Cementitious Material
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5.1 Definition of Magnesia Cementitious Materials
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5.2 Raw Materials for Production of Magnesia Cementitious Materials
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5.3 Calcination of Magnesia Cementitious Materials
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5.4 Hydration of Magnesia Cementitious Materials
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5.4.1 Mixing Liquid for Hydration
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5.4.2 Hydrated Products of Magnesia Cement
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5.4.3 Strength of Hardened Magnesia Cement
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5.5 Properties of Magnesia Cementitious Materials
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5.5.1 Hydration Activity
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5.5.2 Cohesive Properties
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5.5.3 Heat and Frost Resistance
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5.5.4 Wear Resistance
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5.5.5 Efi10rescence
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5.5.6 Resistance to Water
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5.6 Applications of Magnesia Cementitious Materials
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5.6.1 Magnesia Cement Particleboard and Excelsior Board
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5.6.2 Magnesia Cement Floor
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5.6.3 Magnesia Cement Concrete and Magnesia Cement Products
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5.6.4 Magnesia Fiber Composites
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5.6.5 Magnesia Concrete Solar Stove
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5.7 Storage and Transportation of Magnesia Cementitious Materials
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Problems
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Chapter 6 Other Binders
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6.1 Water Glass
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6.1.1 Technical Parameters of Water Glass
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6.1.2 Classifications and Preparation Methods of Water Glass
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6.1.3 The Properties of Water Glass
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6.1.4 Hardening Process of Water Glass
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6.1.5 Application of Water Glass
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6.2 Phosphate Cement
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6.2.1 Magnesium Phosphate Cementitious Materials
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6.2.2 Alurninum Phosphate Cement
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6.3 Geopolymer
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6.3.1 Hydration Process and Hydration Products of Geopolymer
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6.3.2 Mechanical Properties of Geopolymers
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6.3.3 Application of Geopolymers
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6.4 Polymer Modified Inorganic Binders
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Problems
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- Appendix
- References
- 出版地 : 中國大陸
- 語言 : 英文
- DOI : 10.978.75629/58796
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