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Virtual Testing of Concrete Transport Properties

Published

Author(s)

Dale P. Bentz, Edward J. Garboczi, Nicos Martys, Kenneth A. Snyder, W. S. Guthrie, Konstantinos Kyritsis, Narayanan Neithalath

Abstract

The transport properties of concrete are critical to its field performance. Commonly encountered degradation mechanisms are dependent on ionic diffusivity, sorptivity, and permeability. In this paper, virtual testing of two of these concrete transport properties, diffusivity and permeability, will be reviewed. Virtual evaluations of ionic diffusion (and equivalently conductivity) will be presented as one example that spans the full range of applications, from computations on cement paste with micrometer resolution to a virtual rapid chloride permeability test (RCPT) that simulates the standard ASTM (AASHTO) test method for conductivity of concrete cylinders. At the concrete scale, a hard core/soft shell (HCSS) microstructural model may be employed to estimate diffusion coefficients, while finite difference solutions of Fick’s laws that incorporate sorption/reaction may be employed to evaluate remediation strategies for real world bridge decks. Virtual evaluations of permeability are dependent on a sufficient resolution of the pore sizes that are critical for flow under pressure. Two recent successful evaluations will be presented in this paper: the permeability of cement pastes (hydroceramics) cured at elevated temperatures, where transport is controlled by micrometer-sized pores, and the permeability of pervious concrete that is dominated by its coarse porosity (scale of mm). Many of the presented computational (virtual) tools are freely available over the Internet, either for direct access (remote computation) or for downloading.
Proceedings Title
Material science modeling as a solution to concrete problems
Volume
SP-266
Conference Dates
November 8-12, 2009
Conference Location
New Orleans, LA
Conference Title
ACI Fall Convention 2009

Keywords

Building technology, diffusion, durability, microstructure, permeability, transport, virtual testing.

Citation

Bentz, D. , Garboczi, E. , Martys, N. , Snyder, K. , Guthrie, W. , Kyritsis, K. and Neithalath, N. (2009), Virtual Testing of Concrete Transport Properties, Material science modeling as a solution to concrete problems, New Orleans, LA, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=861651 (Accessed March 28, 2024)
Created October 1, 2009, Updated February 19, 2017