Innovation in construction materials engineering versus sustainable development

Open access

Abstract

Innovation in construction is presented as a necessary aspect in the answer that the construction industry must provide to solve its negative impact on the environment. Original and innovative research is only part of the work to be accomplished. More important is the implementation of innovation in practice, where traditions are strongly rooted in society, and safety and long term reliability are required. Lessons from nature and study of durable examples handed down from the pasts serve as guidelines to innovative approaches that contribute to sustainability.

[1] http://innovationaward.cic.hk/en/about (Access online: 31.07.2017).

[2] Chartered Institute of Building, CIOB www.ciob.org/about (Access online: 31.07.2017).

[3] L. Czarnecki (ed.), Innovative Challenges of Building Technologies, ITB, Warszawa 2017 [in Polish].

[4] C. King, Research Front Maps, Thomson Reuters. http://archive.sciencewatch.com/dr/rfm (Access online: 31.07.2017).

[5] L. Czarnecki, J. Deja, K. Furtak, A. Halicka, O. Kapliński, M. Kaszyńska, M. Kruk, K. Kuczyński, E. Szczechowiak, and J. Śliwiński, “Ideas shaping innovation challenges of construction technology”, Materiały Budowlane 7/2017, s. 28‒39 [in Polish].

[6] M. Kaszyńska and S. Skibicki, “Structural failures and disasters as the source of innovative solutions in construction”, in Innovative Challenges of Building Technologies (ed. L. Czarnecki). ITB, Warszawa 2017 [in Polish].

[7] L. Czarnecki and H Justnes, “Sustainable & durable concrete”. Cement Lime Concrete 6/2012, s. 341‒362.

[8] L. Czarnecki, “Sustainable concrete; is nanotechnology the future of concrete polymer composites?”, Advanced Materials Research 687/2013, p. 3‒11.

[9] H. Daly, Beyond Growth: The Economics of Sustainable Development, Boston, Beacon Press, 1996.

[10] L. Czarnecki and D. Van Gemert, “Scientific basis and rules of thumb in civil engineering: conflict or harmony?”, Bull. Pol. Ac.: Tech. 64 (4), 665–673 (2016).

[11] L. Czarnecki and J.J. Sokołowska, “Material model and revealing the truth”, Bull. Pol. Ac.: Tech. 63 (1), 7–14 (2015).

[14] Chandra S., History of Architecture and Ancient Building Materials in India, Tech Books International, New Delhi 110 019, India, 2003.

[15] Pallasmaa J., Architecture of the Essential: Ecological Functionalism of Animal Constructions, http://www.solaripedia.com/files/1062.pdf, (Access online 20.11.2017).

[16] Yeler G. and Yeler S., No Waste in Nature: Using Nature as a Model for Construction Industry, ICOEST, Cappadocia, Turkey, 2013.

[17] D. Eisenberg and W. Reed, “Regenerative design: Toward the re-integration of human systems with nature”, 2003. https://www.usgbc.org/Docs/Archive/MediaArchive/308_Reed_PA333.pdf (Access online 20.11.2017).

[18] https://cop23.unfccc.int/ (Access online 20.11.2017).

[20] P. Lamy, “LAB-FAB-APP. Investing in the European future we want”, European Commission, Luxemburg 2017.

[21] C. Moedas, Research and Innovation – Shaping Our Future, http://europa.eu/rapid/press-release_SPEECH-17‒1881_en.htm (Access online 20.11.2017).

[22] I. Drejer, “Identifying innovation in surveys of services: a Schumpeterian perspective”, Research Policy 33 (3), 551‒562 (2004).

[23] J.A. Schumpeter, The Theory of Economic Development: An Inquiry into Profits, Capital, Credit, Interest and the Business Cycle, Harvard University Press, Cambridge, 1934.

Bulletin of the Polish Academy of Sciences Technical Sciences

The Journal of Polish Academy of Sciences

Journal Information


IMPACT FACTOR 2016: 1.156
5-year IMPACT FACTOR: 1.238

CiteScore 2016: 1.50

SCImago Journal Rank (SJR) 2016: 0.457
Source Normalized Impact per Paper (SNIP) 2016: 1.239

Metrics

All Time Past Year Past 30 Days
Abstract Views 0 0 0
Full Text Views 190 190 37
PDF Downloads 102 102 23