Optimizing The Use Of Fly Ash In Concrete

Optimizing the Use of Fly Ash in Concrete

Author : M. D. A. Thomas

Publisher :

Page : 24 pages

File Size : 41,92 MB

Release : 2007

Category : Concrete

ISBN :

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Book Description

The optimum amount of fly ash varies not only with the application, but also with composition and proportions of all the materials in the concrete mixture (especially the fly ash), the conditions during placing (especially temperature), construction practices (for example, finishing and curing) and the exposure conditions. This document discusses issues related to using low to very high levels of fly ash in concrete and provides guidance for the use of fly ash without compromising the construction process or the quality of the finished product. The nature of fly ashes including their physical, mineralogical and chemical properties is covered in detail, as well as fly ash variability due to coal composition and plant operating conditions. A discussion on the effects of fly ash characteristics on fresh and hardened concrete properties includes; workability, bleeding, air entrainment, setting time, heat of hydration, compressive strength development, creep, drying shrinkage, abrasion resistance, permeability, resistance to chlorides, alkali-silica reaction (ASR), sulfate resistance, carbonation, and resistance to freezing and thawing and deicer salt scaling. Case studies were selected as examples of some of the more demanding applications of fly ash concrete for ASR mitigation, chloride resistance, and green building.





Optimizing the Amount of Class C Fly Ash in Concrete Mixtures

Author : RM. Majko

Publisher :

Page : 15 pages

File Size : 23,16 MB

Release : 1984

Category : Air-void parameters

ISBN :

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Book Description

This paper describes the results of a two part research program on several laboratory air-entrained concrete mixtures designed to contain increasing amounts of moderately cementitious Class C fly ash. In the first part of the paper, a Type A admixture was used in half of the mixtures, treating both the portland cement Type I and fly ash (15% calcium oxide). In the second part of the paper, three other Class C fly ashes (9 to 12% calcium oxide) were extensively tested in concrete that contained a Type A admixture (but this time treating only the cement). Two very high lime fly ashes (25 to 30% calcium oxide) were also tested in concrete mixtures.



Optimization of Fly Ash Replacement in High Volume Fly Ash Concrete

Author :

Publisher :

Page : 30 pages

File Size : 43,23 MB

Release : 1991

Category :

ISBN :

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Book Description

This paper describes research performed to determine the optimum fly ash content in the high volume system. Optimum is defined as the fly ash content for a given water-cementitious ratio which produces the most economical concrete on the basis of cost per MPa. Three series of concrete mixtures were evaluated. Mixtures were performed at a water cementitious ratio of 0.25, 0.27 and 0.32 at fly ash replacement (based on total cementitious) of 50, 55, 60 and 65 percent. The fly ash content varied from 45 to 60 percent for these tests. Materials included Portland cement; low calcium fly ash from the coal fired thermal generating plant in Lingan, NS; coarse aggregate from a Halifax quarry; fine aggregate (natural sand); superplasticizer; air-entraining mixtures; and concrete mixtures. Compressive strength specimens were cast for laboratory storage and testing at 3, 7, 28, and 91 days. Three specimens were tested at each age.





Fly Ash in Concrete

Author : K. Wesche

Publisher : CRC Press

Page : 298 pages

File Size : 15,50 MB

Release : 2004-03-01

Category : Architecture

ISBN : 0203626419

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Book Description

This book is a state-of-the-art report which documents current knowledge on the properties of fly ash in concrete and the use of fly ash in construction. It includes RILEM Recommendations on fly ash in concrete and a comprehensive bibliography including over 800 references.





Improving Concrete and Mortar using Modified Ash and Slag Cements

Author : Leonid Dvorkin

Publisher : CRC Press

Page : 194 pages

File Size : 49,72 MB

Release : 2020-04-18

Category : Technology & Engineering

ISBN : 1000045250

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Book Description

The use of concrete and mortar containing coal fly ash, blast furnace slag, and other dispersed technogenic materials is one of the major areas of potential resource savings and improving the environmental efficiency and sustainability of construction. Improving Concrete and Mortar using Modified Ash and Slag Cements presents the results of a study of high-tech concrete on composite Portland cement and slag Portland cement. It explains the possibility of significantly improving the properties of cements and concrete with the introduction of superplasticizers and hardening activators. Features: Describes how additives can reduce costs and lead to more environmentally sustainable production Explains the possibility of obtaining high-tech concrete with a high content of ash, slag, and clinker kiln dust Presents the possibility of significant reductions of the most energy-intensive component of cements Examines the calculated dependences for predicting the technical properties of concrete saturated with dispersed technogenic products Explains the methods of calculating the composition of concrete with specified properties of low-clinker cements Suitable for civil and structural engineers as well as for specialists working in the field of concrete technology, students of civil engineering, and researchers of new construction technologies, this book allows readers to understand new and sustainable ways to improve the properties of concrete and mortar by utilizing additives.





Proceedings of the International Conference on Innovations for Sustainable and Responsible Mining

Author : Xuan-Nam Bui

Publisher : Springer Nature

Page : 578 pages

File Size : 39,19 MB

Release : 2020-10-25

Category : Science

ISBN : 3030608395

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Book Description

This volume gathers the latest advances, innovations, and applications in the field of mining, geology and geo-spatial technologies, as presented by leading researchers and engineers at the International Conference on Innovations for Sustainable and Responsible Mining (ISRM), held in Hanoi, Vietnam on October 15-17 2020. The contributions cover a diverse range of topics, including mining technology, drilling and blasting engineering, tunneling and geotechnical applications, mineral processing, mine management and economy, environmental risk assessment and management, mining and local development, mined land rehabilitation, water management and hydrogeology, regional Geology and tectonics, spatial engineering for monitoring natural resources and environment change, GIS and remote sensing for natural disaster monitoring, risk mapping and revisualization, natural resources monitoring and management, mine occupational safety and health. Selected by means of a rigorous peer-review process, they will spur novel research directions and foster future multidisciplinary collaborations.