Electrical conductivity method to assess static stability of self-consolidating concrete

The objective of this study is to evaluate the applicability of the electrical conductivity method to assess the stability of self-consolidating concrete (SCC) at early age. The method consists in inserting four electrode pairs at different depths of concrete to monitor local change in ionic concent...

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Published inCement and concrete research Vol. 41; no. 5; pp. 451 - 458
Main Authors Mesbah, H.A., Yahia, A., Khayat, K.H.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.05.2011
Elsevier
Subjects
Aggregates
Applied sciences
Bleeding
BUILDING MATERIALS
Buildings. Public works
CONCRETES
Concretes. Mortars. Grouts
Correlation
CROSS SECTIONS
DISPERSIONS
ELECTRIC CONDUCTIVITY
Electrical conductivity
Electrical conductivity (C)
ELECTRICAL PROPERTIES
Electrical resistivity
Engineering Sciences
EVALUATION
Exact sciences and technology
Homogeneity
HYDROGEN COMPOUNDS
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
MATERIALS
MIXTURES
MONITORING
Other
Other special applications (sand concrete, roller compacted concrete, heavy concrete, architectural concrete, etc.)
OXYGEN COMPOUNDS
PHYSICAL PROPERTIES
Resistivity
RHEOLOGY
Rheology (A)
SEGREGATION
Self-consolidating concrete
STABILITY
Stability (C)
Supplementary cementitious materials (D)
VISCOSITY
WATER
Self-consolidating concrete
Supplementary cementitious materials (D)
Electrical conductivity (C)
Rheology (A)
Stability (C)
Material composition
Electrical conductivity
Stability
Rheology
Construction materials
Measurement result
Electrical method
Experimental study
Self compacting concrete
Silica fume
Coarse aggregate
Supplementary cementitious materials
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Abstract The objective of this study is to evaluate the applicability of the electrical conductivity method to assess the stability of self-consolidating concrete (SCC) at early age. The method consists in inserting four electrode pairs at different depths of concrete to monitor local change in ionic concentrations with time. Such variations can reflect migration of bleed water along concrete column during the plastic stage. The experimental set-up consisted of a rectangular column measuring 1005 mm in height and 250 × 250 mm in cross section. The variations in ionic concentrations were exploited to derive stability indices with regards to bleeding and homogeneity of concrete. Derived stability indices included bleeding coefficient, segregation coefficient, and homogeneity index. Various SCC mixtures made with a fixed water-to-cementitious materials ratio (w/cm) of 0.42, different aggregate gradations, and slump-flow values of 650 ± 10 and 700 ± 10 mm were evaluated. Analysis of changes in ionic concentrations along column samples with time provided adequate evaluation of stability of SCC. For example, the increase in the concentration of viscosity-modifying admixture from 1% to 2% was shown to decrease the homogeneity index from 0.36 to 0.27, reflecting better stability. Validation procedure was carried out by correlating stability indices derived from electrical conductivity measurements to physical variations of coarse aggregate concentrations determined on plastic concrete sampled from the tested column elements at the end of electrical conductivity monitoring period. Good correlations between stability indices and aggregate concentrations are established.
AbstractList The objective of this study is to evaluate the applicability of the electrical conductivity method to assess the stability of self-consolidating concrete (SCC) at early age. The method consists in inserting four electrode pairs at different depths of concrete to monitor local change in ionic concentrations with time. Such variations can reflect migration of bleed water along concrete column during the plastic stage. The experimental set-up consisted of a rectangular column measuring 1005 mm in height and 250 x 250 mm in cross section. The variations in ionic concentrations were exploited to derive stability indices with regards to bleeding and homogeneity of concrete. Derived stability indices included bleeding coefficient, segregation coefficient, and homogeneity index. Various SCC mixtures made with a fixed water-to-cementitious materials ratio (w/cm) of 0.42, different aggregate gradations, and slump-flow values of 650 {+-} 10 and 700 {+-} 10 mm were evaluated. Analysis of changes in ionic concentrations along column samples with time provided adequate evaluation of stability of SCC. For example, the increase in the concentration of viscosity-modifying admixture from 1% to 2% was shown to decrease the homogeneity index from 0.36 to 0.27, reflecting better stability. Validation procedure was carried out by correlating stability indices derived from electrical conductivity measurements to physical variations of coarse aggregate concentrations determined on plastic concrete sampled from the tested column elements at the end of electrical conductivity monitoring period. Good correlations between stability indices and aggregate concentrations are established.
The objective of this study is to evaluate the applicability of the electrical conductivity method to assess the stability of self-consolidating concrete (SCC) at early age. The method consists in inserting four electrode pairs at different depths of concrete to monitor local change in ionic concentrations with time. Such variations can reflect migration of bleed water along concrete column during the plastic stage. The experimental set-up consisted of a rectangular column measuring 1005 mm in height and 250 × 250 mm in cross section. The variations in ionic concentrations were exploited to derive stability indices with regards to bleeding and homogeneity of concrete. Derived stability indices included bleeding coefficient, segregation coefficient, and homogeneity index. Various SCC mixtures made with a fixed water-to-cementitious materials ratio (w/cm) of 0.42, different aggregate gradations, and slump-flow values of 650 ± 10 and 700 ± 10 mm were evaluated. Analysis of changes in ionic concentrations along column samples with time provided adequate evaluation of stability of SCC. For example, the increase in the concentration of viscosity-modifying admixture from 1% to 2% was shown to decrease the homogeneity index from 0.36 to 0.27, reflecting better stability. Validation procedure was carried out by correlating stability indices derived from electrical conductivity measurements to physical variations of coarse aggregate concentrations determined on plastic concrete sampled from the tested column elements at the end of electrical conductivity monitoring period. Good correlations between stability indices and aggregate concentrations are established.
The objective of this study is to evaluate the applicability of the electrical conductivity method to assess the stability of self-consolidating concrete (SCC) at early age. The method consists in inserting four electrode pairs at different depths of concrete to monitor local change in ionic concentrations with time. Such variations can reflect migration of bleed water along concrete column during the plastic stage. The experimental set-up consisted of a rectangular column measuring 1005 mm in height and 250 × 250 mm in cross section. The variations in ionic concentrations were exploited to derive stability indices with regards to bleeding and homogeneity of concrete. Derived stability indices included bleeding coefficient, segregation coefficient, and homogeneity index. Various SCC mixtures made with a fixed water-to-cementitious materials ratio (w/cm) of 0.42, different aggregate gradations, and slump-flow values of 650 ± 10 and 700 ± 10 mm were evaluated. Analysis of changes in ionic concentrations along column samples with time provided adequate evaluation of stability of SCC. For example, the increase in the concentration of viscosity-modifying admixture from 1% to 2% was shown to decrease the homogeneity index from 0.36 to 0.27, reflecting better stability. Validation procedure was carried out by correlating stability indices derived from electrical conductivity measurements to physical variations of coarse aggregate concentrations determined on plastic concrete sampled from the tested column elements at the end of electrical conductivity monitoring period. Good correlations between stability indices and aggregate concentrations are established.
Author Mesbah, H.A.
Yahia, A.
Khayat, K.H.
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  givenname: A.
  surname: Yahia
  fullname: Yahia, A.
  email: Ammar.Yahia@USherbrooke.ca
  organization: Department of Civil Engineering, Université de Sherbrooke, Quebec, Canada
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  givenname: K.H.
  surname: Khayat
  fullname: Khayat, K.H.
  organization: Department of Civil Engineering, Université de Sherbrooke, Quebec, Canada
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Cites_doi 10.1007/BF02481066
10.1061/JCCEAZ.0000144
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2015 INIST-CNRS
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Issue 5
Keywords Self-consolidating concrete
Supplementary cementitious materials (D)
Electrical conductivity (C)
Rheology (A)
Stability (C)
Material composition
Electrical conductivity
Stability
Rheology
Construction materials
Measurement result
Electrical method
Experimental study
Self compacting concrete
Silica fume
Coarse aggregate
Supplementary cementitious materials
Language English
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SSID ssj0006238
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Snippet The objective of this study is to evaluate the applicability of the electrical conductivity method to assess the stability of self-consolidating concrete (SCC)...
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SubjectTerms Aggregates
Applied sciences
Bleeding
BUILDING MATERIALS
Buildings. Public works
CONCRETES
Concretes. Mortars. Grouts
Correlation
CROSS SECTIONS
DISPERSIONS
ELECTRIC CONDUCTIVITY
Electrical conductivity
Electrical conductivity (C)
ELECTRICAL PROPERTIES
Electrical resistivity
Engineering Sciences
EVALUATION
Exact sciences and technology
Homogeneity
HYDROGEN COMPOUNDS
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
MATERIALS
MIXTURES
MONITORING
Other
Other special applications (sand concrete, roller compacted concrete, heavy concrete, architectural concrete, etc.)
OXYGEN COMPOUNDS
PHYSICAL PROPERTIES
Resistivity
RHEOLOGY
Rheology (A)
SEGREGATION
Self-consolidating concrete
STABILITY
Stability (C)
Supplementary cementitious materials (D)
VISCOSITY
WATER
Title Electrical conductivity method to assess static stability of self-consolidating concrete
URI https://dx.doi.org/10.1016/j.cemconres.2011.01.004
https://search.proquest.com/docview/869574531
https://hal.science/hal-00999346
https://www.osti.gov/biblio/21504015
Volume 41
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