High Performance Self-Consolidating Cementitious Composites. (2018)
- Record Type:
- Book
- Title:
- High Performance Self-Consolidating Cementitious Composites. (2018)
- Main Title:
- High Performance Self-Consolidating Cementitious Composites.
- Authors:
- Kodeboyina, Ganesh Babu
- Contents:
- Cover; Half Title; Title Page; Copyright Page; Table of Contents; Preface; Acknowledgments; Author; Chapter 1: Introduction; 1.1 Concept; 1.2 Historical Development; 1.3 Definition; 1.4 Formulations and Classifications of SCCs; 1.5 Potential and Limitations; 1.6 Future Prospects; References; Chapter 2: Constituent Materials; 2.1 Constituent Materials and Availability; 2.2 Cements and Characteristics; 2.3 Simple Powder Extenders; 2.4 Supplementary Cementitious Materials; 2.4.1 Pulverized Fuel Ash or Fly Ash; 2.4.2 Ground Granulated Blast Furnace Slag; 2.4.3 Silica Fume. 2.4.4 Other Pozzolanic Admixtures2.5 Superplasticizers and Other Chemical Admixtures; 2.5.1 Superplasticizers or High-Range Water Reducing Admixtures; 2.5.2 Viscosity Modifying Admixtures; 2.5.3 Other Admixtures; 2.5.4 Mixing Water; 2.6 Aggregate Characteristics; 2.6.1 Reinforcing Fibers; 2.7 Interactions and Compatibility; References; Chapter 3: Insights into Standards and Specifications; 3.1 Standardization Principles; 3.2 Fundamental Characterization and Classification; 3.3 Methods of Consistency Measurement; 3.3.1 Slump Flow and T500 Tests; 3.3.2 J-Ring Test; 3.3.3 V-Funnel Test. 3.3.4 U-Box Test3.3.5 L-Box Test; 3.3.6 Orimet Test; 3.3.7 Mesh Box Test; 3.3.8 Fill Box (Kajima Box) Test; 3.3.9 Screen Stability Test; 3.3.10 Column Settlement Test; 3.3.11 Penetration Resistance Test; 3.3.12 Job Site Acceptance Methods; 3.4 Japanese Recommendations; 3.5 Euro-EFNARC Guidelines; 3.6 ACI Recommendations; 3.7 OtherCover; Half Title; Title Page; Copyright Page; Table of Contents; Preface; Acknowledgments; Author; Chapter 1: Introduction; 1.1 Concept; 1.2 Historical Development; 1.3 Definition; 1.4 Formulations and Classifications of SCCs; 1.5 Potential and Limitations; 1.6 Future Prospects; References; Chapter 2: Constituent Materials; 2.1 Constituent Materials and Availability; 2.2 Cements and Characteristics; 2.3 Simple Powder Extenders; 2.4 Supplementary Cementitious Materials; 2.4.1 Pulverized Fuel Ash or Fly Ash; 2.4.2 Ground Granulated Blast Furnace Slag; 2.4.3 Silica Fume. 2.4.4 Other Pozzolanic Admixtures2.5 Superplasticizers and Other Chemical Admixtures; 2.5.1 Superplasticizers or High-Range Water Reducing Admixtures; 2.5.2 Viscosity Modifying Admixtures; 2.5.3 Other Admixtures; 2.5.4 Mixing Water; 2.6 Aggregate Characteristics; 2.6.1 Reinforcing Fibers; 2.7 Interactions and Compatibility; References; Chapter 3: Insights into Standards and Specifications; 3.1 Standardization Principles; 3.2 Fundamental Characterization and Classification; 3.3 Methods of Consistency Measurement; 3.3.1 Slump Flow and T500 Tests; 3.3.2 J-Ring Test; 3.3.3 V-Funnel Test. 3.3.4 U-Box Test3.3.5 L-Box Test; 3.3.6 Orimet Test; 3.3.7 Mesh Box Test; 3.3.8 Fill Box (Kajima Box) Test; 3.3.9 Screen Stability Test; 3.3.10 Column Settlement Test; 3.3.11 Penetration Resistance Test; 3.3.12 Job Site Acceptance Methods; 3.4 Japanese Recommendations; 3.5 Euro-EFNARC Guidelines; 3.6 ACI Recommendations; 3.7 Other Perceptions; 3.8 Summary and Suggestions; References; Chapter 4: Methodologies for the Proportioning of SCC Mixtures; 4.1 Introduction; 4.2 Design Viewpoints; 4.3 Semi-empirical Methods; 4.4 Compositions Based on Wetting Water Requirements of the Constituents. 4.5 Methods Based on Aggregate Distribution and Packing Factors4.6 Methods of Limiting the Cementitious Materials through Water Content; 4.7 Methods of Incorporating the Cementitious Efficiency of Pozzolans; 4.8 Procedures for Incorporating Different Pozzolans; 4.9 Approaches for a Specified Compressive Strength; 4.10 Methods Based on Rheometer Tests; 4.11 Methods Based on the Rheological Paste Model; 4.12 Methods Based on the Rheological Paste Model Incorporating Fibrous Materials; 4.13 Guidelines Based on Statistical Evaluations; 4.14 Need for a Relook and Proposed Methodology; References. Chapter 5: Concepts and Criteria for High-Performance Self-Compacting Concretes5.1 Introduction; 5.2 Fundamental Concepts of Performance; 5.3 Environmental Parameters; 5.4 Practical Approach for High-Performance Design; 5.4.1 Concrete Production Practice; 5.5 Performance Evaluation Methodologies; 5.6 Concept of Pozzolanic Efficiency and Strength Relations; 5.6.1 Efficiency Concept; 5.6.2 Evaluation of Efficiency; 5.6.3 Factors Influencing the Efficiency of Fly Ash; 5.6.4 Waterâ#x80;#x93;Cement Ratio to the Strength Relation; 5.7 Effects of Pozzolanic Addition on Consistency. … (more)
- Publisher Details:
- Boca Raton, FL : CRC Press
- Publication Date:
- 2018
- Extent:
- 1 online resource
- Subjects:
- 620.1/35
Concrete & Cement
Structural Engineering
Composites
ENGnetBASE
MATERIALSnetBASE
CivilEngineeringnetBASE
SCI-TECHnetBASE
STMnetBASE
Cement composites
Electronic books - Languages:
- English
- ISBNs:
- 9781315161310
1315161311
9781351664981
1351664980
9781351664974
1351664972 - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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- British Library HMNTS - ELD.DS.266423
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- 01_175.xml