Infl uence of ground waste expanded perlite on the reaction of siliceous aggregates with sodium and potassium hydroxides
 
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1
AGH Akademia Górniczo-Hutnicza im. Stanisława Staszica w Krakowie, Wydział Inżynierii Materiałowej i Ceramiki, Katedra Technologii Materiałów Budowlanych, al. Mickiewicza 30, 30-059 Kraków, POLSKA
 
2
Lufthansa Global Business Services, Puszkarska 7l, 30-644, Kraków, POLSKA
 
 
Publication date: 2018-09-01
 
 
Cement Wapno Beton 23(5) 414-423 (2018)
 
ACKNOWLEDGEMENTS
Authors would like to thank to dr Ryszard Stępień from Institute of Electronic Materials Technology in Warsaw, Poland for quartz glass used in experiments. Work was supported by Polish National Center for Research and Development, project No. PBS I 177206.
REFERENCES (13)
1.
F. Rajabipour, E. Giannini, C. Dunant, J.H. Ideker, M.D. Thomas, Alkali- -silica reaction: current understanding of the reaction mechanisms and the knowledge gaps, Cem. Concr. Res. 76, 130-146 (2015).
 
2.
M.D.A. Thomson, The effect of supplementary cementing materials on alkali-silica reaction: A review, Cem. Concr. Res. 41, 1124-1131 (2011).
 
3.
X.Feng, M.D.A .Thomas., T.W. Bremner, B.J. Balcom, Studies on lithium salts to mitigate ASR-induced expansion in new concrete: a critical review, Cem. Conc. Res., 35, 1789-1796 (2005).
 
4.
Z. Owsiak, J. Zapała–Sławeta, The lithium nitrate effect on the concrete expansion caused by alkali-silica reaction in concrete of gravel aggregate, Cement Wapno Beton, 20, 25-31 (2015).
 
5.
Ł. Kotwica, W. Pichór, W. Nocuń-Wczelik, Study of pozzolanic action of ground waste expanded perlite by means of thermal methods, J. Therm. Anal. Calorim., 123, 607-613 (2016).
 
6.
E. Kapeluszna, Ł. Kotwica, W. Pichór, W. Nocuń-Wczelik, Study of expanded perlite by-product as the mineral addition to Portland cement, Cement Wapno Beton, 20, 38-44 (2015).
 
7.
M.H. Shehata, M.D.A. Thomas, Use of ternary blends containing silica fume and fl y ash to suppress expansion due to alkali-silica reaction in concrete, Cem. Concr.Res. 32, 341- (2002).
 
8.
W. Aquino, D. A. Lange, J. Olek, The infl uence of metakaolin and silica fume on the chemistry of alkali–silica reaction products Cem. Concr. Comp. 23, 485-493 (2001).
 
9.
M.H. Shehata, M.D.A. Thomas, The effect of fl y ash composition on the expansion of concrete due to alkali-silica reaction, Cem. Concr. Res. 30, 1063-1072 (2000).
 
10.
Z. Owsiak, P. Czapik, Limitation of the effects at alkali-aggregate reaction in concrete by the addition of zeolite, Cement Wapno Beton, 18, 310-320, (2013).
 
11.
P. Czapik, Z. Owsiak, Effect of zeolite exposed to ion-exchange with ammonium chloride on reaction of sodium and potassium hydroxides with gravel aggregate, Cement Wapno Beton, 21, 79-85, (2016).
 
12.
Bektas, F., Turanli, L., Monteiro, P.J.M., Use of perlite powder to suppress the alkali-silica reaction Constr. Build. Mater., 35, 2014-2017 (2005).
 
13.
S. Diamond, Mercury porosimetry: An inappropriate method for the measurement of pore size distributions in cement-based materials, Cem. Concr. Res. 30, 1517-1525 (2000).
 
ISSN:1425-8129
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