Application of Differential Thermal Analysis in Cement Chemistry

Preface ix -
Acknowledgments xiii -
Abbreviations xv -
I. Differential Thermal Analysis Technique -
II. Theory and Typical Applications 28 -
II.l Theoretical Considerations 28 -
II.2 Typical Applications 34 -
III. Formation of Portland Cement Clinker and Polymorphism of C3S and C2S 54 -
III.1 Formation of Portland Cement Clinker 54 -
111.2 Polymorphism of C3S 71 -
III.3 Polymorphism of C2S 75 -
IV. Hydration of Portland Cement 81 -
IV.l Systems Containing CaO, AI20 a, Si02, and H20 at Ordinary Temperatures 81 -
IV.2 Hydration of Portland Cement 88
V. Hydration of Individual Phases in Portland Cement 111 -
V.l Hydration of C3A 111 -
V.2 Hydration of C3S and B-C2S 127 -
V.3 Hydration of the Ferrite Phase 135 -
VI. Hydration of C3A in Presence of Salts 139 -
VI.1 Hydration of C3A in Presence of Gypsum 139 -
VI.2 Hydration of C3A in Presence of Lignosulfonate 155 -
VI. 3 Hydration of C3A in Presence of Calcium Chloride 159 -
VI.4 Hydration of C3A in Presence of Calcium Carbonate 160 -
VII. Autoclaved Cementitious Products 165 -
VIII. Non-Portland Cements Based on Silicates and Aluminates 196 -
VIII.1 Slags and Slag Cements 196 -
VIII.2 High Alumina Cement 206 -
VIII.3 Pozzolanas and Pozzolanic Cements 213 -
VIII.4 Oil Well Cement 222 -
VIII.5 Hydraulic Lime 223 -
VIlI.6 Expanding Cement 227 -
VIII.7 Acid-Proof Cement 230 -
IX. Other Non-Portland Cements 231 -
IX.l Magnesium Oxychloride and Oxysulfate Cement 231 -
IX.2 Gypsum Plaster 251 -
IX.3 Sand-Lime Mortar 271 -
IX.4 Phosphate Cement 275 -
X. Aggregates 276 -
Subject Index 297 -
Author Index 303 -