Influence of Selected Admixtures on the Microstructure of Renovation Plaster Mortars

[1] Lubelli, B., van Hees, R.P.J., Groot, C.W.P. (2006). Investigation on the behaviour of a restoration plaster applied on heavy salt loaded masonry, Construction and Building Materials 20(9), 691–699. Lubelli B. van Hees R.P.J. Groot C.W.P. 2006 Investigation on the behaviour of a restoration plaster applied on heavy salt loaded masonry Construction and Building Materials 20 9 691 699 10.1016/j.conbuildmat.2005.02.010 Search in Google Scholar

[2] Rodriguez-Navarro, C., Doehne, E. (1999). Salt weathering: influence of evaporation rate, supersaturation and crystallization pattern, Earth Surface Processes and Landforms 24(3), 191–209. Rodriguez-Navarro C. Doehne E. 1999 Salt weathering: influence of evaporation rate, supersaturation and crystallization pattern Earth Surface Processes and Landforms 24 3 191 209 10.1002/(SICI)1096-9837(199903)24:3<191::AID-ESP942>3.0.CO;2-G Search in Google Scholar

[3] Pavlikova, M., Pavlik Z., Keppert, M., Cerny, R. (2011). Salt transport and storage parameters of renovation plasters and their possible effects on restored buildings’ walls, Construction and Building Materials 25(3), 1205–1212. Pavlikova M. Pavlik Z. Keppert M. Cerny R. 2011 Salt transport and storage parameters of renovation plasters and their possible effects on restored buildings’ walls Construction and Building Materials 25 3 1205 1212 10.1016/j.conbuildmat.2010.09.034 Search in Google Scholar

[4] Lubelli, B., van Hees, R.P.J., Groot, C.W.P. (2006). Sodium chloride: crystallization in a “salt transporting” restoration plaster, Cement and Concrete Research 36(8), 1467–1474. Lubelli B. van Hees R.P.J. Groot C.W.P. 2006 Sodium chloride: crystallization in a “salt transporting” restoration plaster Cement and Concrete Research 36 8 1467 1474 10.1016/j.cemconres.2006.03.027 Search in Google Scholar

[5] Lubelli, B., de Rooij, M.R. (2009). NaCl crystallization in restoration plasters, Construction and Building Materials 23(5), 1736–1742. Lubelli B. de Rooij M.R. 2009 NaCl crystallization in restoration plasters Construction and Building Materials 23 5 1736 1742 10.1016/j.conbuildmat.2008.09.010 Search in Google Scholar

[6] Marynowicz, A., Wyrwał, J. (2005). Badanie właściwości wilgotnościowych wybranych materiałów budowlanych w warunkach izotermicznych (The study of humid properties of selected building materials in isothermal conditions), Instytut Naukowo-Badawczy ZTUREK. Marynowicz A. Wyrwał J. 2005 Badanie właściwości wilgotnościowych wybranych materiałów budowlanych w warunkach izotermicznych (The study of humid properties of selected building materials in isothermal conditions) Instytut Naukowo-Badawczy ZTUREK Search in Google Scholar

[7] Ramachandran, V.S. (1995). Concrete Admixtures Handbook 2nd Edition. Properties, Science and Technolog., Park Ridge, USA. Ramachandran V.S. 1995 Concrete Admixtures Handbook 2nd Edition Properties, Science and Technolog. Park Ridge, USA Search in Google Scholar

[8] Du, L.X., Folliard, K.J., (2005) Mechanisms of air entrainment in concrete, Cement and Concrete Research 35(8), 1463–1471. Du L.X. Folliard K.J. 2005 Mechanisms of air entrainment in concrete Cement and Concrete Research 35 8 1463 1471 10.1016/j.cemconres.2004.07.026 Search in Google Scholar

[9] Arkles, B. (2011). Hydrophobicity and Hydrophilicity and Silane Surface Modification, GelestInc, Morrisville. Arkles B. 2011 Hydrophobicity and Hydrophilicity and Silane Surface Modification GelestInc Morrisville Search in Google Scholar

[10] Sakai, E., Kasuga, T., Sugiyama, T., Asaga, K., Daimon, M. (2006). Influence of superplasticizers on the hydration of cement and the pore structure of hardened cement, Cement and Concrete Research 36(11), 2049–2053. Sakai E. Kasuga T. Sugiyama T. Asaga K. Daimon M. 2006 Influence of superplasticizers on the hydration of cement and the pore structure of hardened cement Cement and Concrete Research 36 11 2049 2053 10.1016/j.cemconres.2006.08.003 Search in Google Scholar

[11] Gołaszewski, J., Szwabowski, J. (2004). Korygowanie wpływu domieszek napowietrzających na urabialność i wytrzymałość na ściskanie betonów wysokowartościowych (The adjustment of the impact of aeration admixtures on workability and durability against the compression strength of high-perfomance concrete). Konferencja Dni Betonu. Tradycja i Nowoczesność. Wisła, 16. Gołaszewski J. Szwabowski J. 2004 Korygowanie wpływu domieszek napowietrzających na urabialność i wytrzymałość na ściskanie betonów wysokowartościowych (The adjustment of the impact of aeration admixtures on workability and durability against the compression strength of high-perfomance concrete) Konferencja Dni Betonu. Tradycja i Nowoczesność Wisła 16 Search in Google Scholar

[12] Łaźniewska-Piekarczyk, B., Szwabowski, J. (2014). Kompatybilność między domieszką napowietrzającą i upłynniającą uprzedniona powietrzonych mieszanek betonowych (The compatibility between aeration admixture and liquid admixture based on the concrete aeration admixtures ). Materiały budowlane, 11,18–20. Łaźniewska-Piekarczyk B. Szwabowski J. 2014 Kompatybilność między domieszką napowietrzającą i upłynniającą uprzedniona powietrzonych mieszanek betonowych (The compatibility between aeration admixture and liquid admixture based on the concrete aeration admixtures ) Materiały budowlane 11 18 20 Search in Google Scholar

[13] PN-EN 1015-11:2001/A1:2007: Methods of test for mortar for masonry – Part 11: Determination of flexural and compressive strentgth of hardened mortar. PN-EN 1015-11:2001/A1 2007 Methods of test for mortar for masonry – Part 11: Determination of flexural and compressive strentgth of hardened mortar Search in Google Scholar

[14] WTA Merkblatt 2-9-04, „Sanierputzsysteme”. WTA Merkblatt 2-9-04 „Sanierputzsysteme” Search in Google Scholar

[15] Angeli, M., Bigas, J.P., Benavente, D., Menendez, B., Hebert, R., David, C. (2007). Salt crystallization in pores: quantification and estimation of damage, Environmental Geology 52(2), 187–195. Angeli M. Bigas J.P. Benavente D. Menendez B. Hebert R. David C. 2007 Salt crystallization in pores: quantification and estimation of damage Environmental Geology 52 2 187 195 10.1007/s00254-006-0474-z Search in Google Scholar

[16] Angeli, M., Benavente, D., Bigas, J.P., Menendez, B., Hebert, R., David, C. (2008). Modification of the porous network by salt crystallization in experimentally weathered sedimentary stones, Materials and Structures 41(6), 1091–1108. Angeli M. Benavente D. Bigas J.P. Menendez B. Hebert R. David C. 2008 Modification of the porous network by salt crystallization in experimentally weathered sedimentary stones Materials and Structures 41 6 1091 1108 10.1617/s11527-007-9308-z Search in Google Scholar

[17] Flatt, R.J. (2002). Salt damage in porous materials: how high supersaturations are generated, Journal of Crystal Growth 242(3-4) 435-454. Flatt R.J. 2002 Salt damage in porous materials: how high supersaturations are generated Journal of Crystal Growth 242 3-4 435 454 10.1016/S0022-0248(02)01429-X Search in Google Scholar

[18] Ignerowicz, A., Oleksik, M. (2017). Kompatybilność środków odpieniających z domieszkami PCE (The compatibility of defoaming substances and PCE admixtures). Nowoczesne Budownictwo Inżyneryjne, 2(71), 52–54. Ignerowicz A. Oleksik M. 2017 Kompatybilność środków odpieniających z domieszkami PCE (The compatibility of defoaming substances and PCE admixtures) Nowoczesne Budownictwo Inżyneryjne 2 71 52 54 Search in Google Scholar

[19] Abdolahi, F., Moosavian, M. A., Ali, V. (2005). The Mechanism Action Antifoams, 5, 1122–1129. Abdolahi F. Moosavian M. A. Ali V. 2005 The Mechanism Action Antifoams 5 1122 1129 10.3923/jas.2005.1122.1129 Search in Google Scholar

[20] PN-EN 1015-18:2003: Methods of test mortar for masonry–Part 18: Determination of water absorption coefficient due to capillary action of hardened mortar. PN-EN 1015-18 2003 Methods of test mortar for masonry–Part 18: Determination of water absorption coefficient due to capillary action of hardened mortar Search in Google Scholar