Self-consolidating Concrete, Applications for Slip Form Paving
Self-consolidating Concrete, Applications for Slip Form Paving

Author:

Publisher:

Published: 2005

Total Pages: 68

ISBN-13:

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Over-consolidation is often visible as longitudinal vibrator trails in the surface of concrete pavements constructed using slip-form paving. Concrete research and practice have shown that concrete material selection and mix design can be tailored to provide a good compaction without the need for vibration. However, a challenge in developing self-consolidating concrete for slip-form paving (SF SCC) is that the new SF SCC needs to possess not only excellent self-compactibility and stability before extrusion, but also sufficient "green" strength after extrusion, while the concrete is still in a plastic state. The SF SCC to be developed will not be as fluid as the conventional SCC, but it will (1) be workable enough for machine placement, (2) be self-compacting with minimum segregation, (3) hold shape after extrusion from a paver, and (4) have performance properties (strength and durability) compatible to current pavement concrete. The overall objective of this project is to develop a new type of SCC for slip-form paving to produce more workable concrete and smoother pavements, better consolidation of the plastic concrete, and higher rates of production. Phase I demonstrated the feasibility of designing a new type of SF SCC that can not only self-consolidate, but also have sufficient green strength. In this phase, a good balance between flowability and shape stability was achieved by adopting and modifying the mix design of self-consolidating concrete to provide a high content of fine materials in the fresh concrete. It was shown that both the addition of fine particles and the modification of the type of plasticizer significantly improve fresh concrete flowability. The mixes used in this phase were also found to have very good shape stability in the fresh state. Phase II will focus on developing a SF SCC mix design in the lab and a trial of the SF SCC in the field. Phase III will include field study, performance monitoring, and technology transfer.

Transition from Fluid to Solid
Transition from Fluid to Solid

Author:

Publisher: American Concrete Institute

Published: 2009

Total Pages: 180

ISBN-13: 0870313150

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Summary: This publication contains the twelve papers presented at a full-day technical session sponsored by the American Concrete Insitute. The subject matter of these papers includes: (1) the development of concrete properties and microstructure at early ages, (2) test methods for assessing early-age volume change and cracking potential, (3) construction operations timing, (4) computer simulations of early-age behavior, and (5) mechanisms that end the concrete dormant period.

Green Building with Concrete
Green Building with Concrete

Author: Gajanan M. Sabnis

Publisher: CRC Press

Published: 2015-06-16

Total Pages: 452

ISBN-13: 1498704115

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Illustrates the Global Relevance of SustainabilityApplicable to roads, bridges, and other elements of the infrastructure, Green Building with Concrete: Sustainable Design and Construction, Second Edition provides an overview of all available information on the role of concrete in green building. A handbook offering viewpoints from worldwide experts

Field Study of Air Content Stability in the Slipform Paving Process
Field Study of Air Content Stability in the Slipform Paving Process

Author:

Publisher:

Published: 2012

Total Pages: 230

ISBN-13:

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This study evaluated the impacts of construction on the air content and air-void system structure of Portland cement concrete pavements. The primary intent was to quantify the air content of fresh concrete before and after it has gone through the slipform paver. The air-void system parameters of hardened concrete were then assessed using cast and extracted core specimens. The results of the air content testing on fresh concrete and the concrete cylinder specimens cast in the field suggested that there is some loss of air as the concrete passes through the paver. Laboratory testing performed on cores extracted from the pavement did not provide any conclusive evidence that entrained air is lost during the slipform paving process. In fact, many of the extracted cores had measured air content values that were much higher than the specification requirement. If excessive, this could result in increased permeability and low-strength related issues. Although a rigorous statistical analysis was not performed, the results suggest that the air content testing on fresh concrete is not capturing the true air content of the concrete placed with a slipform paver. The fresh concrete air content is generally lower than the air content measured in the cores.

Advances in Cement-Based Materials
Advances in Cement-Based Materials

Author: Gideon P.A.G. Van Zijl

Publisher: CRC Press

Published: 2009-11-02

Total Pages: 508

ISBN-13: 1439859132

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Collection of selected papers on current advances in high performance construction materials. Contributions deal with the development, characterization, application procedures, performance and structural design of materials with key potential in civil engineering works. Materials treated are fibre reinforced concrete, high performance concrete, sel

An Introduction to Slipform and Fixed Form Portland Cement Concrete Paving
An Introduction to Slipform and Fixed Form Portland Cement Concrete Paving

Author: J. Paul Guyer, P.E., R.A.

Publisher: Guyer Partners

Published: 2019-06-21

Total Pages: 37

ISBN-13:

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Introductory technical guidance for civil engineers, construction managers and construction inspectors interested in slipform and fixed form construction methods for portland cement concrete pavements for streets, highways and other applications.