A.Sicakova, J. Sliwinski, I. Hager, T. Tracz, T. Zdeb, T. Zych, R. Hela, L. Bodnarova, New generation cement concretes: ideas, design, technology and applications. Slovakia, Kosice: Technical University, 2008.
 B., Cazacliu, A. Ventura, "Technical and environmental effects of concrete production: dry batch versus central mixed plant,” Journal of Cleaner Production, vol. 18, pp. 1320–1327, 2010.
 A. Polettini, R. Pomi, E. Fortuna, "Chemical activation in view of MSWI bottom ash recycling in cement-based systems,” Journal of Hazardous Materials, vol. 162, pp. 1292–1299, 2009.
 T. Bashar, G. Nounu, "Properties of concrete contains mixed colour waste recycled glass as sand and cement replacement," Construction and Building Materials, vol. 22, pp. 713–720, 2008.
 A. Josa, A. Aguado, A. Cardim, E. Byars, "Comparative analysis of the life cycle impact assessment of available cement inventories in the EU,” Cement and Concrete Research, vol. 37, pp. 781–788, 2007.
 C. Pade, M. Guimaraes, "The CO2 uptake of concrete in a 100 year perspective,” Cement and Concrete Research, vol. 37, pp. 1348–1356, 2007.
 D. N. Huntzinger, T. Eatmon, "A life-cycle assessment of Portland cement manufacturing: comparing the traditional process with alternative technologies,” Journal of Cleaner Production, vol. 17, pp 668–675, 2009.
 J. K. Tiwari, A. M. Rawani, "Environmental impact analysis: a case study of acc cement plant,” Journal of Environmental Research And Development, vol. 7 (no. 2), pp. 802–808, 2012.
 J.A. Fava, "Will the next 10 years be asproductive inadvancing lifecycle approaches as the last 15 years?” International Journal of Life Cycle Assessment, vol. 11, pp. 6–8, 2006.
 M. Culakova, E. B. Kridlova, S. Vilcekova, J. Katunska, "Reduction of carbon footprint of building.” Chemical engineering transactions, vol. 29 (no. 1), pp. 199–204, 2012.
 M. Hauschild, H. Wenzel, Environmental Assessment of Products. London: Chapman & Hall, 1998.
 C. Benoit et al., Guidelines for social life cycle assessment of products: a social and socio-economic LCA code of practice complementing environmental LCA and Life Cycle Costing, contributing to the full assessment of goods and services within the context of sustainable development. Paris: United Nations Environment Program, 2009.
 European Commission. Supporting Environmentally Sound Decisions for Waste Management – A technical guide to Life Cycle Thinking (LCT) and Life Cycle Assessment (LCA) for waste experts and LCA practitioners. Luxembourg: Publications Office of the European Union, 2011.
 G. Finnveden, "Life cycle assessment (online)”. (cited 12 March 2014). Available: http://www.eoearth.org/view/article/1542442010.
 M. Houska, "Multi-critarial analysis” (online). Education materials of ZIP project. (cited 12 March 2014). Available from Internet: http://etext.czu.cz/php/skripta/skriptum.php?titul_key=79 (in Czech).
 P. Korviny, "Theoretical basis of multi-criteria decision (online)”. (cited 12 March 2014). Available from Internet: http://korviny.cz/mca7/ soubory/teorie_mca.pdf (in Czech).
 M. Ondova, N. Stevulova, "Benefits of coal fly ash utilization in the area of a pavement building,” in Proc. of the 8th International Conference Environmental Engineering, Vilnius, Lithuania, 2011, pp. 1156–1159.
 M. Ondova, N. Stevulova, A. Estokova, "The Study of the Properties of Fly Ash Based Concrete Composites with Various Chemical Admixtures,” in Procedia Engineering, vol. 42, 2012, pp. 2044-2054.
 J. Sjunnesson, Life Cycle Assessment of Concrete. Lund: Lunds Tekniska Högskola, 2005.
 J. Hodkova et al., "Catalog of Materials - Cement Portland 42,5 (online)”. (cited 12 March 2014). Available from
 B. Berge, The Ecology of Building Materials. UK: Elsevier Ltd., 2009.
 Information on building components (online). (cited 12 March 2014). Available from Internet: http://www.dataholz.at/en/bauteil_info.htm
 H. K., Stranddorf, L. Hoffmann, A. Schmidt, Update on impact categories, normalization and weighting in LCA, Danish EPA, 2005.
 A. Estokova, M. Porhincak, R. Ruzbacky, "Minimization of CO2 emisions and primal energy by building materials´ environmental evaluation and optimalization,” Chemical Engineering Transactions, vol. 25, pp. 1–6, 2011.
 A. Estokova, M. Porhincak, "Reduction of Primary Energy and CO2 Emissions Through Selection and Environmental Evaluation of Building Materials," Theoretical Foundations of Chemical Engineering, vol. 46 (no. 6), pp. 704–712, 2012.
 A. Azapagic, A. Emsley, I. Hamerton, Polymers, the environment and sustainable development. UK: John Wiley & Sons, Ltd., 2003.
 L. Meciarova, Findings of environmental impact of concretes prepared with a share of fly ash in terms of assessing basic factors of their life cycle. Slovakia, Kosice: Technical University, 2013 (in Slovak).
 M. Ondova, N. Stevulova, Slovak fly ash as cement substitution in the concrete road pavements. Saarbrücken: Verlag, 2013.