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PUBLICATIONS

Damage Development in Cementitious Materials Exposed to MgCl2 Deicing Salt

Published

Author(s)

Yaghoob Farnam, Andrew Wiese, Dale P. Bentz, Jeffrey M. Davis, Jason Weiss

Abstract

MgCl2 is used in deicing applications due to its capability to depress freezing temperatures to a lower point than other salts like NaCl. The constituents of concrete (i.e., pores solution, calcium hydroxide, aluminate phases, and calcium silicate hydrate gel) can alter the MgCl2-H2O phase diagram. Different chemical reactions may concurrently occur between MgCl2 and cementitious constituents to form brucite, Friedel's salts, magnesium silicate hydrate, magnesium oxychloride, and/or secondary calcium oxychloride. In this study, it was observed that MgCl2 can be entirely consumed in concrete by the chemical reactions and produce CaCl2. As such, it was found that MgCl2 can interact with a cementitious material and it follows a response that is more similar to the Ca(OH)2-CaCl2-H2O phase diagram than that of the MgCl2-H2O phase diagram. Mortar samples exposed to low concentration MgCl2 solutions (<10 % by mass) for a short duration of freezing and thawing showed damage due to ice formation, while for higher concentrations (≥10 % by mass), the damage was most likely due to the chemical reactions between MgCl2 and cementitious constituents at room temperature (23 °C). The chemical reactions occurred rapidly (within 5-10 min) and caused a significant decrease in subsequent fluid ingress into exposed concrete.
Citation
Construction and Building Materials
Volume
93
Pub Type
Journals

Download Paper

https://doi.org/10.1016/j.conbuildmat.2015.06.004
Local Download

Keywords

Brucite, calcium oxychloride, concrete, deicing salt, freeze-thaw damage, magnesium oxychloride, magnesium silicate hydrate, phase change.
Concrete / cement and Building materials

Citation

Farnam, Y. , Wiese, A. , Bentz, D. , Davis, J. and Weiss, J. (2015), Damage Development in Cementitious Materials Exposed to MgCl2 Deicing Salt, Construction and Building Materials, [online], https://doi.org/10.1016/j.conbuildmat.2015.06.004, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=917186 (Accessed April 19, 2024)

Created June 14, 2015, Updated October 12, 2021