Evaluation of Self-consolidating Concrete for Bridge Structure Applications PDF Download
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Author: Alen Horta
Publisher:
ISBN:
Category : Bridges
Languages : en
Pages : 228
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Book Description
Author: Alen Horta
Publisher:
ISBN:
Category : Bridges
Languages : en
Pages : 228
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Book Description
Author: Alen Horta
Publisher:
ISBN:
Category : Concrete bridges
Languages : en
Pages :
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Book Description
The goal of this research was to determine whether precast prestressed bridge elements with congested reinforcement could be cast using self-consolidating concrete (SCC) without vibration and yet comply with all parameters of strength, no honeycombing, and void-free surface finish. Eight wall panels and eight BT-72 13-ft long girder sections were fabricated in two precast plants. A qualitative and quantitative evaluation of the surface finish, and homogeneity of the concrete throughout the specimens was performed. Strength, creep, shrinkage and chloride permeability of the SCC field mixes were investigated. Good quality SCC mixes were produced for the walls and the BT-72 girder sections, which completely filled the specimens without the need of internal or external vibration, and resulted in a superior surface finish and a homogenous distribution of the aggregate throughout the section.
Author: Lawrence Khan
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Author: Kamal Khayat
Publisher: Transportation Research Board
ISBN: 0309117666
Category : Bridges
Languages : en
Pages : 99
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Book Description
At head of title: National Cooperative Highway Research Program.
Author: Kyle H. Larson
Publisher:
ISBN:
Category : Concrete
Languages : en
Pages : 256
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Book Description
Results of an extensive experimental program conducted to determine the material, bond characteristics, and time-dependent deformations of a proposed self-consolidating concrete (SCC) mixture for bridge girders are presented. This research program was completed in three phases. The first phase consisted of 15 full-scale, pretensioned SCC flexural specimens tested to evaluate their transfer and development lengths. These specimens included both single-strand and multiple-strand beams, as well as specimens designed to evaluate the so-called 'top-strand' effect. The top-strand specimens, with more than 20 inches of concrete below the strand, were tested to evaluate the current American Association of State Highway and Transportation Officials requirement of a 30% increase in the development length when the concrete below the strand is more than 12 inches. Strand end-slip measurements, used to estimate transfer lengths, indicated the proposed SCC mixture meets ACI and AASHTO requirements. In addition, flexural tests confirmed the proposed SCC mixture also meets current code requirements for development length. The second phase was to evaluate the elastic shortening, creep, and shrinkage properties of the proposed SCC mixture for bridge girders. Four bridge girders with an inverted-T profile were used to measure these time-dependent deformations. In two of the specimens, the strands were tensioned to 75% of the ultimate tensile strength, simulating a girder at service. Strands of the other two specimens were left untensioned to evaluate shrinkage effect of the concrete alone. The shrinkage was then subtracted from the fully tensioned specimens and elastic shortening and creep were isolated after relaxation losses were calculated from code expressions. In addition, the fully tensioned specimens were used to determine transfer lengths of the prestressing strand. The final phase of the program was to record strain measurements of the actual bridge girders used in the field. Elastic shortening, creep, and shrinkage prestress losses of the proposed SCC mixture were compared with current design equations. Instrumentation of seven pretensioned girders in a five-span bridge located in Cowley County, Kansas, was used to measure time-dependent deformations. Three of these girders utilized SCC, while the other four were cast with conventional concrete.
Author: Hamdi Celik Ozyildirim
Publisher:
ISBN:
Category : Concrete
Languages : en
Pages : 26
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Book Description
Conventional concrete tends to present a problem with regard to adequate consolidation in thin sections or areas of congested reinforcement, which leads to a large volume of entrapped air voids and compromises the strength and durability of the concrete. Using self-consolidating concrete (SCC) can minimize the problem since it was designed to consolidate under its own mass. This study examined several mixture designs in the laboratory with the goal of creating mixtures with desirable flow characteristics that did not require additional consolidation yet provided adequate compressive strength, low permeability, shrinkage control, and resistance to cycles of freezing and thawing. The results provided a foundation for determining if SCC could be produced on a commercial scale using locally available materials at two concrete plants. SCC from one plant was used in a field application for a small bridge in a residential area. The results showed that with adjustments to the mixture proportions, SCC can be produced successfully and provide many benefits to transportation agencies and the construction industry.
Author: Joseph Donald Bailey
Publisher:
ISBN:
Category : Concrete
Languages : en
Pages : 468
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Book Description
Author: Rafat Siddique
Publisher: Woodhead Publishing
ISBN: 012817370X
Category : Technology & Engineering
Languages : en
Pages : 410
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Book Description
Self-Compacting Concrete: Materials, Properties and Applications presents the latest research on various aspects of self-compacting concrete, including test methods, rheology, strength and durability properties, SCC properties at elevated temperature, SC manufacturing with the use of SCMs, recycled aggregates and industrial by-products. Written by an international group of contributors who are closely associated with the development of self-compacting concrete, the book explores the main differences between SCC and normal concrete in terms of raw materials, fresh properties and hardened properties. Other topics discussed include the structure and practical applications of fiber reinforced SCC. Researchers and experienced engineers will find this reference to be a systematic source to SCC with its accounting of the latest breakthroughs in the field and discussions of SCC constructability, structural integrity, improved flows into complex forms, and superior strength and durability. Offers a systematic and comprehensive source of information on the latest developments in SCC technology Includes mix design procedures, tests standards, rheology, strength and durability properties Explores the properties and practical applications of SCC
Author: James Benson Roberts
Publisher:
ISBN:
Category : Concrete
Languages : en
Pages : 290
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Book Description
Author: Micheal A. A. Asaad
Publisher:
ISBN: 9781339664118
Category :
Languages : en
Pages : 268
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Book Description
The objective of this research is to evaluate the mechanical and viscoelastic properties of SCC developed for CIP applications, especially for CIP bridge components and compare these properties with the predictions models in accordance with AASHTO LRFD 2014 provisions and other codes. Several compression, splitting, flexural, push-off, and pull out tests were conducted on large number of SCC mixtures to recommend modification factors for the CVC prediction models when SCC is used. Also, the effects of SCMs, aggregate type, and aggregate size on viscoelastic and mechanical properties were investigated. Full-scale bridge pier and post-tensioned girder were erected and tested to evaluate the constructability and structural behavior of ready-mixed SCC used in field applications.
