Innowacje budowlane. Cz.2

• Autorzy: Moncarz P. D.

Warianty tytułu

EN

Construction innovations

• Języki publikacji: PL

Abstrakty

EN

Based on the Silicon Valley experience, a definition of innovation and its specific nature as related to construction engineering is presented. The roots of building innovation, significance of innovation in construction, and assessment of risk related to the introduction of innovation in construction are discussed. The virtually unlimited potential of IT tools is highlighted; the BIM is presented as an integrator of technical knowledge, project management, and multi-dimensional digital modelling of the design and construction process. The goal of sustainable development remains superior to all other than life-safety and functionality requirements. The quest for scientific and technical excellence in construction is a complex process requiring new ways of delivering the university curriculum. Examples of contemporary construction engineering innovations are presented, with the emphasis on the need for bold adaptations of innovative concepts. lt is hard to say which of the experiments will in the future be adopted as standards and which will be remembered as attempts at originality? Regardless, construction engineering has been innovative and is doomed to continue to be innovative.

Słowa kluczowe

PL

innowacja; trend; budownictwo; rozwój zrównoważony

EN

innovation; trend; building engineering; sustainable development

• Wydawca: BUILDER CORP Sp. z o.o.
• Czasopismo: Builder
• Rocznik: 2018
• Tom: R.22, nr 3
• Strony: 84--86
• Opis fizyczny: Bibliogr. 28 poz., il.

Twórcy

autor

Moncarz P. D.

• Stanford University

Bibliografia

• [1] Burton Henry V., Deierlein Gregory, Lallemant David and Lin Ting (2016), “Framework for Incorporating Probabilistic Building Performance in the Assessment of Community Seismic Resilience“. JSE, 142(8), ASCE p.C4015007.
• [2] Chorowski Maciej, „Świata-nie-dogonimy, zaproponujmy-wlasne-innowacje” wywiad do „Pulsu Biznesu”, 05.10.2016.
• [3] Czarnecki Lech, Kaproń Marek: “Sustainable construction as a research area”; International Journal of the Society of Materials Engineering for Resources, 99-106, 2010.
• [4] Czarnecki Lech; Van Gemert D., “Scientific basis and rules of thumb in civil engineering: conflict or harmony?” Bulletin of the Polish Academy of Sciences Technical Sciences, 4/64, 665-673.
• [5] Czarnecki Lech, Sokołowska J.J., “Material model and revealing the truth”, Bulletin of the Polish Academy of Sciences Technical Sciences,1/63, 7-14.
• [6] Fruchter Renate, Schrotenboer Tim, Luth Gregory P., ”From Building Information Model to Building Knowledge Model”, Proceedings, International Workshop on Computing in Civil Engineering, 2009.
• [7] Kaszyńska Maria, “Effect of curing conditions on mechanical properties of high-performance concrete and self-consolidating concrete” – RILEM Proceedings PRO 46, “Concrete Durability and Service Life Planning (ConcreteLife’06)”, 2006.
• [8] Kaszyńska Maria, “Effect of aggregate mix composition on light-weight self consolidating concrete”, 6-th International RILEM Symposium on SCC and 4th North American Conference on the Design and Use of SCC, SCC2010 Montreal, 26-29 sept. 2010.
• [9] Krawinkler Helmut, Deierlein Gregory G. (2014), “Challenges Towards Achieving Earthquake Resilience Through Performance-Based Earthquake Engineering”, Chapter 1 of Performance-Based Seismic Engineering: Vision for an Earthquake Resilient Society, M. Fischinger, Ed., Springer, ISBN 978-94-017-8874-8.
• [10] Lepech Michael D., Geiker M., Michel A. and Stang H. (2016), “Probabilistic Design and Management of Sustainable Concrete Infrastructure Using Multi-Physics Service Life Models”, First International Conference on Grand Challenges in Construction Materials. Eds. Bauchy, M., Sant, G.N., and DeShazo, J.R. March 17-18, 2016. Los Angeles, California, USA.
• [11] Lepech Michael D., Geiker M., Stang H., ”Probabilistic design and management of environmentally sustainable repair and rehabilitation of reinforced concrete structures”, Cement and Concrete Composites 47:19-31, 2014.
• [12] Liel Abbie B., Deierlein Gregory G., “Using Collapse Risk Assessments to Inform Seismic Safety Policy for Older Concrete Buildings,” Earthquake Spectra, 28(4), 1495-1521, 2012.
• [13] Liel Abbie B., Deierlein Gregory G., “Cost-Benefit Evaluation of Seismic Mitigation Alternatives for Older Reinforced Concrete Frame Buildings”, Earthquake Spectra, 29(4), 1391-1411, 2013.
• [14] Luth Gregory P., “VDC and the Engineering Continuum”, Journal of Construction Engineering and Management, Volume 137, Issue 10, 906-915. October 2011.
• [15] Luth Gregory P., “Dramatic Cost and Schedule Control & Reduction, Using HD BIM, Complete Design, Case Studies”, BIM Conference 2017.
• [16] Moncarz Piotr D., Bishop Cliff D., “The San Francisco-Oakland Bay Bridge: Innovation or blunder?”, Proceedings, Awarie Budowlane, 27th Engineering Conference on Construction Failures, Szczecin – Międzyzdroje, Poland, May 20–23, 2015.
• [17] Moncarz Piotr D., Krstulovic-Opara Neven, “Tougher concrete structures for LNG facilities. Project Facilities and Construction, Society of Petroleum Engineers; 1(2), June 2006.
• [18] Moncarz Piotr, Emami Neysan, Wren Jon, “Micro-biological attack on deep foundation concrete”; Proceedings, 9th Internat. Conference on Piling and Deep Foundations, Nice, France, June 2002.
• [19] Moncarz Piotr, McDonald Brian, Caligiuri Robert, “Earthquake failures of welded building connections”; Proceedings, 6th Pan-American Congress of Applied Mechanics and 8th International Conference on Dynamic Problems in Mechanics, Applied Mechanics in the Americas, Vol. 7, Rio de Janeiro, Brazil, January 4–8, 1999.
• [20] Moncarz Piotr, McDonald Brian, Caligiuri Robert, “Earthquake failures of welded building connections”, International Journal of Solids and Structures, Elsevier Science Ltd.; 38:2025–2032, January 2000.
• [21] Moncarz Piotr, Lahnert Brant, Hooley Roy, Osteraas John, “Analysis of stability of L’Ambiance Plaza lift-slab towers”, American Society of Civil Engineers Journal of the Performance of Constructed Facilities, Vol. 6, No. 4; 232–245, November 1992.
• [22] Noakowski Piotr, Lahne Jense, Rost Marcus, “Innovative Strengthening of an Old Concrete Chimney”, CICIND Report, 84th CICIND Conference, Gdansk, September 2015.
• [23] Noakowski Piotr, Harling Andreas, “The crack width prediction, Background, Method, Reliability, Appliance”, CICIND Report, Spring Meeting 2017, Singapore.
• [24] Nowak Andrzej S.; Latsko Olga, “Revised load and resistance factors for AASHTO LRFD Bridge Design Specifications”, PCI Journal, May-June 2017.
• [25] Radlinski Mateusz, Harris Nathan and Moncarz, “Sustainable concrete: impacts of existing and emerging materials and technologies on the construction industry”, Proceedings, 2011 Architectural Engineering National Conference, Oakland, CA, March 30–April 2, 2011.
• [26] Staub-French S., Khanzode A., “3D and 4D modeling for design and construction coordination: issues and lessons learned”, ITCON, 12, 381–407, 2007.
• [27] Swensen Scott, Bishop Cliff, Moncarz Piotr D., “Risk-Based Analysis for Life-Safety Decisions”, Proceedings, Awarie Budowlane, 28th Engineering Conference on Construction Failures, Szczecin – Międzyzdroje, Poland, May 22-26, 2017.
• [28] Tatum C.B., “Core Elements of Construction Engineering Knowledge for Project and Career Success”, Journal of Construction Engineering and Management. 137(10), 745-750, 2011.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).