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Calcined Clays for Sustainable Concrete

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Cover of 'Calcined Clays for Sustainable Concrete'

Table of Contents

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    Book Overview
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    Chapter 1 Sulphate and ASR Resistance of Concrete Made with Calcined Clay Blended Cements
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    Chapter 2 The Influence of Metakaolin on Limestone Reactivity in Cementitious Materials
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    Chapter 3 Sustainable Secondary Resources from Brazilian Kaolin Deposits for the Production of Calcined Clays
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    Chapter 4 Carbonation of Blended Binders Containing Metakaolin
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    Chapter 5 Service Life and Environmental Impact Due to Repairs by Metakaolin Concrete After Chloride Attack
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    Chapter 6 Properties of Calcined Lias Delta Clay—Technological Effects, Physical Characteristics and Reactivity in Cement
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    Chapter 7 Alternative Binders Based on Lime and Calcined Clay
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    Chapter 8 Optimization of Cements with Calcined Clays as Supplementary Cementitious Materials
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    Chapter 9 Feasibility of Calcined Marl as an Alternative Pozzolanic Material
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    Chapter 10 From Ancient to Modern Sustainable Concrete
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    Chapter 11 Pozzolanicity of Calcined Clay
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    Chapter 12 Research on Properties of MK–CFBCA Mineral Admixtures
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    Chapter 13 Optimization of Alkali Activated Portland Cement—Calcined Clay Blends Based on Phase Assemblage in the Na2O–CaO–Al2O3–SiO2–H2O System
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    Chapter 14 Phase Assemblages in Hydrated Portland Cement, Calcined Clay and Limestone Blends From Solid-State 27Al and 29Si MAS NMR, XRD, and Thermodynamic Modeling
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    Chapter 15 Heated Montmorillonite: Structure, Reactivity, and Dissolution
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    Chapter 16 Reactivity of Heated Kaolinite from a Combination of Solid State NMR and Chemical Methods
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    Chapter 17 Durability of Portland Cement Blends Including Calcined Clay and Limestone: Interactions with Sulfate, Chloride and Carbonate Ions
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    Chapter 18 Thermodynamic Modeling of Portland Cement—Metakaolin—Limestone Blends
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    Chapter 19 Comparison of the Pozzolanic Reactivity for Flash and Soak Calcined Clays in Portland Cement Blends
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    Chapter 20 The Impact of VMA on the Rheology, Thixotropy and Robustness of Self-compacting Mortars
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    Chapter 21 Calcined Coal Gangue and Clay Shale for Cementitious Materials Without Clinker
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    Chapter 22 Red Ceramic Wastes: A Calcined Clay Pozzolan
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    Chapter 23 Assessment of Sustainability of Low Carbon Cement in Cuba. Cement Pilot Production and Prospective Case
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    Chapter 24 Ternary Blended Cement with Limestone Filler and Kaolinitic Calcined Clay
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    Chapter 25 Blended Cements with Kaolinitic Calcined Clays: Study of the Immobilization of Cr(VI)
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    Chapter 26 The Efficacy of Calcined Clays on Mitigating Alakli-Silica Reaction (ASR) in Mortar and Its Influence on Microstructure
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    Chapter 27 Influence of MK-Based Admixtures on the Early Hydration, Pore Structure and Compressive Strength of Steam Curing Mortars
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    Chapter 28 Design and Preparation of Metakaolin-Based Mineral Admixture and its Effects on the Durability of Concrete
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    Chapter 29 Reactivity and Microstructure of Calcined Marl as Supplementary Cementitious Material
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    Chapter 30 Assessing the Synergistic Effect of Limestone and Metakaolin
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    Chapter 31 Study on Influence of Limestone Powder on the Fresh and Hardened Properties of Early Age Metakaolin Based Geopolymer
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    Chapter 32 Evaluation of the Permeation Properties of Concrete Added with a Petrochemical Industry Waste
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    Chapter 33 Calcined Illitic Clays as Portland Cement Replacements
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    Chapter 34 Low Carbon Cement: Durability Performance Assessment with Laboratory and Site Tests
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    Chapter 35 Influence of the Manufacturing Process on the Performance of Low Clinker, Calcined Clay-Limestone Portland Cement
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    Chapter 36 Calcined Clays for Sustainable Concrete
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    Chapter 37 Calcined Clays for Sustainable Concrete
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    Chapter 38 From a View of Alkali Solution: Alkali Concentration to Determine Hydration Process of Alkali Activating Metakaolin
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    Chapter 39 What Happens to 5 Year Old Metakaolin Geopolymers’ the Effect of Alkali Cation
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    Chapter 40 Development and Introduction of a Low Clinker, Low Carbon, Ternary Blend Cement in Cuba
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    Chapter 41 Influence of Calcination Temperature in the Pozzolanic Reactivity of a Low Grade Kaolinitic Clay
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    Chapter 42 Pozzolanic Reactivity of Low Grade Kaolinitic Clays: Influence of Mineralogical Composition
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    Chapter 43 Industrial Manufacture of a Low-Clinker Blended Cement Using Low-Grade Calcined Clays and Limestone as SCM: The Cuban Experience
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    Chapter 44 Calcined Clays for Sustainable Concrete
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    Chapter 45 Hydrothermal Synthesis Products of CaO Metakaolin H2O System at 90 °C
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    Chapter 46 Reactivity of Calcined Clay in Alite-Calcium Sulfoaluminate Cement Hydration
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    Chapter 47 Primary Kaolin Waste as Pozzolanic Material in Dry Concrete: Mechanical Properties and Resistance to Attack by Sulphates
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    Chapter 48 The Influence of Cavitation Treatment on Amorphization of Kaolinite in the Dispersion of the “Kaolin—Na2O · nSiO2 · mH2O—NaOH—H2O” Composition
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    Chapter 49 Role of Metakaolin on Lowering pH of the Alkali Activated Cement Concrete in Barrier Application
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    Chapter 50 Protocol for Prediction of Durability of New Cements: Application to LC3
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    Chapter 51 The Role of Calcined Clay Cement vis a vis Construction Practices in India and Their Effects on Sustainability
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    Chapter 52 Testing of Suitability of Supplementary Materials Mixed in Ternary Cements
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    Chapter 53 Compatibility of Superplasticizers with Limestone-Metakaolin Blended Cementitious System
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    Chapter 54 Field Application of Limestone-Calcined Clay Cement in India
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    Chapter 55 Raw Material Mapping in Selected Areas of Rajasthan and West Bengal and Their Suitability for Use in Low Carbon Cement Production
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    Chapter 56 Suitability of Raw Materials in Gujarat for Production of Low Carbon Cement
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    Chapter 57 Effects of Metakaolin on Nanomechanical Properties of Cement Paste
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    Chapter 58 Meta-Kaolin for High Performance Concrete
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    Chapter 59 Clay Activation and Color Modification in Reducing Calcination Process: Development in Lab and Industrial Scale
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    Chapter 60 Experimental Study on Evolution of Pore Structure of Cementitious Pastes Using Different Techniques
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    Chapter 61 Various Durability Aspects of Calcined Kaolin-Blended Portland Cement Pastes and Concretes
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    Chapter 62 Economic Implications of Limestone Clinker Calcined Clay Cement (LC3) in India
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    Chapter 63 Fresh and Mechanical Properties of High Strength Self Compacting Concrete Using Metakaolin
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    Chapter 64 Effective Clinker Replacement Using SCM in Low Clinker Cements
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    Chapter 65 Durability Characteristics of Sustainable Low Clinker Cements: A Review
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    Chapter 66 Calcined Shale as Low Cost Supplementary Cementitious Material
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    Chapter 67 Development of a New Rapid, Relevant and Reliable (R3) Testing Method to Evaluate the Pozzolanic Reactivity of Calcined Clays
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    Chapter 68 Investigation of Ternary Mixes Made of Clinker Limestone and Slag or Metakaolin: Importance of Reactive Alumina and Silica Content
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    Chapter 69 Using of Libyan Calcined Clay in Concrete
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    Chapter 70 Physical, Mineralogical and Chemical Characterization of Venezuelan Kaolins for Use as Calcined Clays in Cement and Concrete
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    Chapter 71 Pozzolanic Potential of the Calcined Clay-Lime System
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    Chapter 72 Effect of Metakaolin on the Drying Shrinkage Behaviour of Portland Cement Pastes
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    Chapter 73 BIND-AMOR: Reuse of Dredged Sediments as Supplementary Cementitious Materials
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    Chapter 74 Influence of Mineral Impurities on the Pozzolanic Reactivity of Metakoalin
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    Chapter 75 Fresh Properties of Limestone Calcined Clay Cement (LC3) Pastes
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    Chapter 76 Alkali Silica Reaction Mitigating Properties of Ternary Blended Cement with Calcined Clay and Limestone
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    Chapter 77 Autogenous Shrinkage of Limestone and Calcined Clay Cements
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    Chapter 78 Sustainable Benefits of a Low Carbon Cement Based Building
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    Chapter 79 CO2 Abatement During Production of Low Carbon Cement
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    Chapter 80 Role of Blended Cement in Reducing Energy Consumption
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    Chapter 81 Investigation of Sulphate Attack on Limestone-Calcined Clay Cement Mortars
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    Chapter 82 Experimental Study of the Flow Behaviour of Superplasticized Pastes with Cement-Calcined Clay-Limestone Blends
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    Chapter 83 Hydration Properties of Cement Pastes with Recycled Demolition Waste from Clay Bricks and Concrete
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    Chapter 84 Calcined Natural Clays: Performance Evaluation as Cementitious Material
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    Chapter 85 Rheology of Limestone Calcined Clays Cement Pastes. A Comparative Approach with Pure Portland Cement Pastes
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    Chapter 86 Chloride-Induced Corrosion Rates of Steel Embedded in Mortar with Ordinary Portland and Limestone Calcined Clay Cements (OPC and LC3)
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Title
Calcined Clays for Sustainable Concrete
Published by
Springer, Dordrecht, January 2015
DOI 10.1007/978-94-017-9939-3
ISBNs
978-9-40-179938-6, 978-9-40-179939-3
Editors

Karen Scrivener, Aurélie Favier

Mendeley readers

The data shown below were compiled from readership statistics for 239 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Malaysia 1 <1%
India 1 <1%
Netherlands 1 <1%
Denmark 1 <1%
Unknown 235 98%

Demographic breakdown

Readers by professional status Count As %
Student > Ph. D. Student 64 27%
Student > Master 44 18%
Student > Doctoral Student 22 9%
Researcher 19 8%
Student > Bachelor 15 6%
Other 41 17%
Unknown 34 14%
Readers by discipline Count As %
Engineering 131 55%
Materials Science 29 12%
Chemistry 9 4%
Environmental Science 5 2%
Earth and Planetary Sciences 3 1%
Other 9 4%
Unknown 53 22%