Performance-Based Specifications of Workability Characteristics of Prestressed, Precast Self-Consolidating Concrete-A North American Prospective

Adequate selection of material constituents and test methods are necessary for workability specifications and performance of hardened concrete. An experimental program was performed to evaluate the suitability of various test methods for workability assessment and to propose performance specificatio...

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Bibliographic Details
Published in:Materials 2014-03, Vol.7 (4), p.2474-2489
Main Authors: Long, Wu-Jian, Khayat, Kamal Henri, Lemieux, Guillaume, Hwang, Soo-Duck, Han, Ning-Xu
Format: Article
Language:English
Subjects:
Aggregates
Assessments
Cement
Civil engineering
Concrete
Concretes
Materials selection
Prestressed concrete
Quality control
Rheology
Segregations
Specifications
Test methods
Test procedures
Viscosity
Workability
Yield stress
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Summary:Adequate selection of material constituents and test methods are necessary for workability specifications and performance of hardened concrete. An experimental program was performed to evaluate the suitability of various test methods for workability assessment and to propose performance specifications of prestressed concrete. In total, 33 self-consolidating concrete (SCC) mixtures made with various mixture proportioning parameters, including maximum size and type of aggregate, type and content of binder, and w/cm were evaluated. Correlations among various test results used in evaluating the workability responses are established. It is recommended that SCC should have slump flow values of 635-760 mm. To ensure proper filling capacity greater than 80%, such concrete should have a passing ability that corresponds to L-box blocking ratio (h₂/h₁) ≥ 0.5, J-Ring flow of 570-685 mm, slump flow minus J-Ring flow diameter ≤75 mm. Moreover, Stable SCC should develop a column segregation index lower than 5%, and rate of settlement at 30 min of 0.27%/h for SCC proportioned with 12.5 or 9.5 mm MSA. It is recommended that SCC should have a plastic viscosity of 100-225 Pa·s and 100-400 Pa·s for concrete made with crushed aggregate and gravel, respectively, to ensure proper workability.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma7042474