Determination of the effective chloride diffusion coefficient in concrete via a gas diffusion technique

Alfarabi Sharif; K. F. Loughlin; A. K. Azad; C. M. Navaz

Determination of the effective chloride diffusion coefficient in concrete via a gas diffusion technique

Alfarabi Sharif, K. F. Loughlin, A. K. Azad, C. M. Navaz

King Fahd University of Petroleum & Minerals

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

A new experimental technique based on gas diffusion through a thin sample specimen is presented to evaluate the effective chloride diffusion ion in concrete. The counterdiffusion of two gases, helium and nitrogen, through a concrete disc is used to establish the porosity-to-tortousity ratio (ε/τ) of the concrete. From measurements of the porosity via porosimetry, the tortuosity of the concrete can be determined. The effective chloride ion diffusion in concrete is a function of (ε/τ) ratio and the diffusion coefficient of chloride ion in water which is a known value. The test takes 3 to 4 hours to complete. Excellent results were obtained when correlated with the conventional diffusional measurement techniques for different water-cement ratios and cement content.

Original language	English
Pages (from-to)	227-233
Number of pages	7
Journal	ACI Materials Journal
Volume	94
Issue number	3
State	Published - May 1997

Keywords

Diffusion
Effective diffusion coefficient
Porosity
Static diffution cell
Stefan-Maxwell equations
Tortuosity

ASJC Scopus subject areas

Civil and Structural Engineering
Building and Construction
General Materials Science

Cite this

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title = "Determination of the effective chloride diffusion coefficient in concrete via a gas diffusion technique",

abstract = "A new experimental technique based on gas diffusion through a thin sample specimen is presented to evaluate the effective chloride diffusion ion in concrete. The counterdiffusion of two gases, helium and nitrogen, through a concrete disc is used to establish the porosity-to-tortousity ratio (ε/τ) of the concrete. From measurements of the porosity via porosimetry, the tortuosity of the concrete can be determined. The effective chloride ion diffusion in concrete is a function of (ε/τ) ratio and the diffusion coefficient of chloride ion in water which is a known value. The test takes 3 to 4 hours to complete. Excellent results were obtained when correlated with the conventional diffusional measurement techniques for different water-cement ratios and cement content.",

keywords = "Diffusion, Effective diffusion coefficient, Porosity, Static diffution cell, Stefan-Maxwell equations, Tortuosity",

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year = "1997",

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pages = "227--233",

journal = "ACI Materials Journal",

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T1 - Determination of the effective chloride diffusion coefficient in concrete via a gas diffusion technique

AU - Sharif, Alfarabi

AU - Loughlin, K. F.

AU - Azad, A. K.

AU - Navaz, C. M.

PY - 1997/5

Y1 - 1997/5

N2 - A new experimental technique based on gas diffusion through a thin sample specimen is presented to evaluate the effective chloride diffusion ion in concrete. The counterdiffusion of two gases, helium and nitrogen, through a concrete disc is used to establish the porosity-to-tortousity ratio (ε/τ) of the concrete. From measurements of the porosity via porosimetry, the tortuosity of the concrete can be determined. The effective chloride ion diffusion in concrete is a function of (ε/τ) ratio and the diffusion coefficient of chloride ion in water which is a known value. The test takes 3 to 4 hours to complete. Excellent results were obtained when correlated with the conventional diffusional measurement techniques for different water-cement ratios and cement content.

AB - A new experimental technique based on gas diffusion through a thin sample specimen is presented to evaluate the effective chloride diffusion ion in concrete. The counterdiffusion of two gases, helium and nitrogen, through a concrete disc is used to establish the porosity-to-tortousity ratio (ε/τ) of the concrete. From measurements of the porosity via porosimetry, the tortuosity of the concrete can be determined. The effective chloride ion diffusion in concrete is a function of (ε/τ) ratio and the diffusion coefficient of chloride ion in water which is a known value. The test takes 3 to 4 hours to complete. Excellent results were obtained when correlated with the conventional diffusional measurement techniques for different water-cement ratios and cement content.

KW - Diffusion

KW - Effective diffusion coefficient

KW - Porosity

KW - Static diffution cell

KW - Stefan-Maxwell equations

KW - Tortuosity

UR - https://www.scopus.com/pages/publications/0031143790

M3 - Article

AN - SCOPUS:0031143790

SN - 0889-325X

VL - 94

SP - 227

EP - 233

JO - ACI Materials Journal

JF - ACI Materials Journal

IS - 3

ER -

Determination of the effective chloride diffusion coefficient in concrete via a gas diffusion technique

Abstract

Keywords

ASJC Scopus subject areas

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