The Use Potential of Traditional Building Materials for the Realization of Structures by Modern Methods of Construction

[1] World Commission on Environment and Development (WCED). (1987). Our common future. Oxford University Press : OxfordSearch in Google Scholar

[2] Keiner M. (2005). History, definition(s) and models of sustainable development. ETH ZurichSearch in Google Scholar

[3] Tazikova A. (2014). Sustainability of existing buildings obtained by reconstruction. In Innovative approaches to the design and management of buildings reconstruction, Kosice: TUKESearch in Google Scholar

[4] Modern methods of house building. (2003). Postnote, LondonSearch in Google Scholar

[5] Waste and resource programme (2007). Current practices and future potential in modern methods of construction. Banbur, Oxon: WRAPSearch in Google Scholar

[6] Strukova Z. (2009). Specific perception of safety risks of construction projects. In Innovative approach to modelling of intelligent structural elements in construction, Kosice: TUKESearch in Google Scholar

[7] Lovel H. & Smith S. J. (2008). Agencement in housing markets: The case of the UK construction industry. Geogorum. 41(3), 457-46810.1016/j.geoforum.2009.11.015Search in Google Scholar

[8] Melia P., Ruggieri G., Sabbanimi S. & Dotelli G. (2014) Environmental impacts of natural and conventional building materials: a case study on earth plasters. Journal of cleaner production. 80, 179-18610.1016/j.jclepro.2014.05.073Search in Google Scholar

[9] Kozlovska M., Strukova Z. & Kaleja P. (2015) Methodology of cost parameter estimation for modern methods of contruction based on wood. Procedia Engineering 7th Scientific-Technical Conference on Material Problems in Civil Engineering, MATBUD 2015; Cracow University of Technology; Krakow; Poland; 22 - 24 June 2015Search in Google Scholar

[10] http://www.americanlimetechnology.com/what-is-hempcrete/Search in Google Scholar

[11] http://www.strawbalecentral.com/techniques3.htmlSearch in Google Scholar

[12] http://www.fibertec.com/as-green-as-it-gets-straw-bale-homes/Search in Google Scholar

[13] http://earthzine.org/Search in Google Scholar

[14] http://www.yourhome.gov.au/materials/rammed-earthSearch in Google Scholar

[15] Pacheco-Torga F. & Jalali S. (2012). Eco-efficient construction and building materials research under the EU Framework Programme Horizon 2020. Construction and building materials, 51(1), 151-16210.1016/j.conbuildmat.2013.10.058Search in Google Scholar

[16] Baskova R. & Sicakova A. (2014) Modern technologies of architectural concrete. In Improving the efficiency of construction through MMC technologies - Proceedings of scientific papers Kosice: TUKESearch in Google Scholar

[17] Jaillon L., Poon C. S. & Chiang Y. H. (2009) Quantifying the waste reduction potential of using prefabrication in building construction in Hong Kong. Waste Management. 29 (1), pp 309-32010.1016/j.wasman.2008.02.015Search in Google Scholar

[18] Lesniak A. & Plebankiewicz E. (2015) Modelling the decision-making process concerning participationin construction bidding. Journal of Management in Engineering. 31 (2)10.1061/(ASCE)ME.1943-5479.0000237Search in Google Scholar

[19] Zima K. The concept of investment decision support model using fuzzy set theory. In AIP Conference Proceeding 11th International Conference of Numerical Analysis and Applied Mathematics 2013, ICNAAM 2013; Rhodes; Greece; 21 - 27 September 2013 AIP Publishing LLC10.1063/1.4825751Search in Google Scholar