Commercial renovation renders: mechanical, hygric, thermal and durability properties
 
More details
Hide details
1
Department of Materials Engineering and Chemistry, Faculty of Civil Engineering, Czech Technical University in Prague
 
2
Experimental Center, Faculty of Civil Engineering, Czech Technical University in Prague
 
3
Institute of Chemistry, Faculty of Civil Engineering, Brno University of Technology
 
 
Publication date: 2011-09-01
 
 
Cement Wapno Beton 16(5) 288-298 (2011)
 
ACKNOWLEDGEMENTS
This research has been supported by the Czech Science Foundation, under grant No. 103/09/0780.
REFERENCES (22)
1.
WTA 2-9-04/D Sanierputzsysteme. WTA-Publications, Pfaffenhofen 2005.
 
2.
L. Binda, G. Baronio, C. Tiraboschi, C. Tedeschi, Experimental research for the choice of adequate materials for the reconstruction of the Cathedral of Noto. Construction and Building Materials, 17, 629-639 (2003).
 
3.
N. Arioglu, S. Acun, A research about a method for res-toration of traditional lime mortars and plasters: A staging system and approach. Building and Environment, 41, 1223-1230 (2006).
 
4.
D. Michoinová, Preparation of Lime Plasters in the Care of Historical Monuments (in Czech). ČKAIT, Prague 2006.
 
5.
J. Ashurst, N. Ashurst, N. 2005. Mortars, Plasters & Renders, English Heritage Technical Handbook, Vol. 3. Asghate Publishing, Aldershot, Hants 2005.
 
6.
M. F. Rojas, J. Cabrera, The effect of temperature on the hydration rate and stability of the hydration phases of metakaolin-lime-water systems. Cement and Concrete Research, 32, 133-138 (2002).
 
7.
M.F. Rojas, Study of hydrated phases present in a MK–lime system cured at 60 °C and 60 months of reaction. Cement and Concrete Research, 36, 827-831 (2006).
 
8.
R. Černý, A. Kunca, V. Tydlitát, J. Drchalová, P. Rovnaníková, Effect of Pozzolanic Admixtures on Mechanical, Thermal and Hygric Properties of Lime Plasters. Construction and Building Materials 20, 849-857 (2006).
 
9.
A. Bakolas, E. Aggelakopoulou, A. Moropoulou, S. Anagnostopoulou, Evaluation of pozzolanic activity and physicomechanical characteristics in metakaolin-lime pastes. Journal of Thermal Analysis and Calorimetry, 84, 157-163 (2006).
 
10.
C. Fortes-Revilla, S. Martinez-Ramirez, M. Teresa Blanco-Varela, Modelling of slaked lime–metakaolin mortar engineering characteristics in terms of process variables. Cement & Concrete Composites, 28, 458-467 (2006).
 
11.
A. Sepulcre-Aguilar, F. Hernández-Olivares, Assessment of phase formation in lime-based mortars with added metakaolin, Portland cement and sepiolite, for grouting of historic masonry. Cement and Concrete Research, 40, 66-76 (2010).
 
12.
N. Billong, U.C. Melo, D. Njopwouo, F. Louvet, J.P. Bonnet, Effect of mixture constituents on properties of slaked lime–metakaolin–sand mortars containing sodium hydroxide. Cement & Concrete Composites, 31, 658-662 (2009).
 
13.
N. Billong, U.C. Melo, E. Kamseu, J.M. Kinuthia, D. Njopwouo, Improving hydraulic properties of lime–rice husk ash binders with metakaolin. Construction and Building Materials, 25, 2157–2161 (2011).
 
14.
M. R. Veiga, A. Velosa, A. Magalhaes, Experimental applications of mortars with pozzolanic additions: Characterization and performance evaluation. Construction and Building Materials, 23, 318–327 (2009).
 
15.
V. Kočí, J. Maděra, R. Černý, P. Rovnaníková, Application of a combined computational-experimental approach for the service life estimate of exterior plasters of historical buildings. Structural Studies, Repairs and Maintenance of Heritage Architecture XI. WIT Transactions on the Built Environment, 109, 303-314, (2009).
 
16.
S. Roels, J. Carmeliet, H. Hens, O. Adan, H. Brocken, R. Černý, Z. Pavlík, C. Hall, K. Kumaran, L. Pel, R. Plagge, Interlaboratory Comparison of Hygric Properties of Porous Building Materials. Journal of Thermal Envelope and Building Science, 27, 307-325 (2004).
 
17.
E. Vejmelková, M. Pavlíková, M. Keppert, Z. Keršner, P. Rovnaníková, M. Ondráček, M. Sedlmajer, R. Černý, Fly-Ash Infl uence on the Properties of High Performance Concrete. Cement Wapno Beton, 13/75, 189-204 (2009).
 
18.
E. Vejmelková, M. Pavlíková, M. Jerman, R. Černý, Free Water Intake as Means of Material Characterization. Journal of Building Physics, 33, 29-44 (2009).
 
19.
M. K. Kumaran, Moisture Diffusivity of Building Materials from Water Absorption Measurements. Journal of Thermal Envelope and Building Science, 22, 349-355 (1999).
 
20.
M. Jerman, M. Keppert, J. Výborný, R. Černý, Moisture and heat transport and storage characteristics of two commercial autoclaved aerated concretes. Cement Wapno Beton 16/78, 18-29 (2011).
 
21.
ČSN 72 2452, Testing of frost resistance of mortar. Czechoslovak Standardization Institute, Prague 1968.
 
22.
S. Chandra, Binders yesterday and today in India. Cement Wapno Beton 15/77, 31-49 (2010).
 
ISSN:1425-8129
Journals System - logo
Scroll to top