Advances in Cement Technology: Chemistry, Manufacture and TestingS.N. Ghosh CRC Press, 01.01.2003 - 828 Seiten This volume is the outcome of a critical review of the most important and useful aspects of science and technology of cement. The contents present a combination of cement chemistry including mathematical modelling, manufacture showing geology of limestone and other raw materials, concrete and other blends, instrumental analysis showing thermoanalytical techniques, and x-rays. This publication should be of specific interest to students and researchers, material scientists, cement chemists and technical personnel, and engineers in cement and concrete industry and laboratories. |
Inhalt
Introduction Composition | 1 |
Hydration of Portland Cement | 31 |
Gypsum in Cement | 87 |
Effect of Fly Ashes on the Rheology of Cement Pastes | 171 |
Mathematical Modelling in Cement Technology | 203 |
Mineral Additions in Ordinary Portland Cement | 245 |
Cement Burning Technologies | 293 |
Advanced Geostatistical Methods in Limestone | 367 |
The Use of Waste Materials in Concrete | 475 |
BLENDED CEMENT | 507 |
Multicomponent Composite Cements | 559 |
Sulphate Attack Sulphate Resistant Cements | 595 |
INSTRUMENTAL ANALYSIS | 631 |
The Use of Thermal Analysis in Relation | 661 |
Infrared Spectroscopy in Cement Chemistry | 709 |
Science | 735 |
CONCRETE TECHNOLOGY | 421 |
Electrical Treatment of the Mixing Water | 455 |
Häufige Begriffe und Wortgruppen
28 days 7th ICCC admixtures Al,O alite alkali aluminate amount analysis anhydrite blast furnace blast furnace slag blended cements bucket wheel calciner calcium fly ashes calcium hydroxide calcium silicate calcium sulphate carbonate cement containing cement hydration cement paste Chem chemical clinker components composite cements compressive strength Concr conveyer coolers crystalline crystals cutting drum decrease effect endothermic ettringite exothermic Figure fly ash formation fuel gases granulated grinding gypsum gypsum content heat hemihydrate higher hydration products hydration reaction hydraulic Hydrothermally increase ions kiln lime limestone method mixture monosulphate mortar oxide parameters particle size distribution peak phase pozzolanic precalciner preheater present Proc properties ratio raw material raw meal reaction reactivity reduced rheological samples silica fume slag slag cement soluble specific surface area structure Sulphate attack Sulphate resistance superplasticizer temperature thermal tobermorite water demand