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O zastosowaniu kompozytów fibrocementowych w budownictwie

Identyfikatory
Warianty tytułu
EN
Use of Fiber Reinforced Cementitious Composites in structural engineering
Języki publikacji
PL
Abstrakty
PL
Jest to grupa materiałów budowlanych charakteryzujących się dużą odpornością chemiczną i mechaniczną. Dzięki zawartości drobnych włókien i dużej wytrzymałości na rozciąganie kompozyty te mogą być stosowane w nowych konstrukcjach budowlanych i naprawach konstrukcji istniejących. Omówiono właściwości kompozytów oraz przykłady ich zastosowań na świecie.
EN
Fiber Reinforced Cementitious Composites is a group of building materials characterized by high chemical and mechanical resistance. Thanks to the high content of fine fibers and their unique tensile response, they allow novel structural solutions. This article systematizes the knowledge about these materials and presents the range of applications worldwide before the first structural implementation in Poland.
Rocznik
Strony
63--66
Opis fizyczny
Bibliogr. 31 poz., il.
Twórcy
  • Laboratory for Maintenance and Safety of Structures, Politechnika Federalna, Lozannna, Szwajcaria
  • Politechnika Warszawska, Wydział Inżynierii Lądowej
Bibliografia
  • [1] Ajdukiewicz A.: Konstrukcyjne betony cementowe nowej generacji. "Inżynieria i Budownictwo", nr 9/1998.
  • [2] Bae Y., Pyo S.: Ultra high performance concrete (UHPC) sleeper: Structural design and performance. "Engineering Structures", 2020. Vol. 210, Paper no. 110374.
  • [3] Brühwiler E: Structural UHPFRC: Welcome to the post-concrete era! International Interactive Symposium on Ultra-High Performance Concrete. 2016. lowa State University Digital Press.
  • [4] Brühwiler E., Bastien Masse M.: Strengthening the Chillon viaducts deck slabs with reinforced UHPFRC. IABSE Conference Geneva 2015'Structural Engineering: Providing Solutions to Global Challenges'. 2015. IABSE.
  • [5] Brühwiler E., Friedl H., Rupp C., Escher H.: Bau einer Bahnbrücke aus bewehrtem UHFB. "Beton- und Stahlbetonbau", 2019. 114.
  • [6] Cheyrezy M., Richard P.: Reactive powder concretes with high ductility and 200-800 MPa compressive strength. ACI Spring Convention, San Francisco, SP. 1994.
  • [7] Ćwirzeń A., Penttala V., Ćwirzeń K.: The effect of heat treatment on the salt freeze-thaw durability of UHSC. Proceedings of the 2nd International Symposium on Ultra High Performance Concrete, Kassel, Germany. 2008.
  • [8] Denarié E: ARCHES D06-Recommendations for the tailoring of UHPFRC recipes for rehabilitation. European Project 6th FWP/ARCHES Assessment and Rehabilitation of Central European Highway Structures, WP 5 - 'Harden Structures to last with UHPFRC' 2009.
  • [9] Denarié E., Jacomo D., Fady N., Corvez D.: Rejuvenation of maritime signalisation structures with UHPFRC. RILEM-fib-AFGC Int. Symposium on Ultra-High Performance Fibre-Reinforced Concrete, France: RILEM Publication SARL 2013.
  • [10] Denisiewicz A.: Betony z proszków reaktywnych i ich zastosowanie w konstrukcjach zespolonych. "Przegląd Budowlany", nr 11/2014.
  • [11] Foden A.J., McDonagh M.D.: Benefits of Ultra-High Performance Concrete for the Rehabilitation of the Pulaski Skyway. International Interactive Symposium on Ultra-High Performance Concrete. 2016. Iowa State University Digital Press.
  • [12] Gołaszewski J.: Betony nowej generacji w budownictwie mostowym. "Mosty", nr 4/2016.
  • [13] Hajiesmaeili A., Denarié E.: Next generation UHPFRC for sustainable structural applications. DSCS 2018: 2nd International Workshop on Durability and Sustainability of Concrete Structures, 2018.
  • [14] Hajiesmaeili A., Pittau F., Denarié E., Habert G.: Life Cycle Analysis of Strengthening Existing RC Structures with R-PE-UHPFRC. "Sustainability", No. 11/2019.
  • [15] Joe C.D., Mustafa M.: Cost and ecological feasibility of using ultra-high performance concrete in highway bridge piers. International Interactive Symposium on Ultra-High Performance Concrete. 2016. Iowa State University Digital Press.
  • [16] Keoleian G.A., Kendall A., Dettling J.E., Smith V.M., Chandler R.F., Lepech M.D., Li V.C.: Life cycle model ing of concrete bridge design: Comparison of engineered cementitious composite link slabs and conventional steel expansion joints. "Journal of Infrastructure Systems", No. 11/2005.
  • [17] Kono K., Musha H., Kawaguchi T., Eriguchi A., Tanaka S., Kobayashi T., Ikeda M.: Durability study of the first PC bridge constructed with ultra high strength fiber reinforced concrete in Japan. Praceedings of International Symposium on Ultra-high Performance Fiber-Reinforced Concrete. Marseille, France. 2013.
  • [18] Lagier F., Massicotte B., Charron J.-P.: Bond strength of tension lap splice specimens in UHPFRC. "Construction and Building Materials", 2015. 93:
  • [19] Lappa E.S.: High strength fiber reinforced concrete: static and fatigue behaviour in bending. Delft University of Technology, Netherlands, 2007.
  • [20] Larson M.B.: Bridge decks going jointless. Research Record, Construction & Technology, Issue, 2005 (100).
  • [21] Lepech M.D., Li V.C.: Water permeability of engineered cementitious composites. "Cement and Concrete Composites", 2009. 31.
  • [22] Li V.C.: Engineered Cementitious Composites (ECC): Bendable Concrete for Sustainable and Resilient Infrastructur. Springer, 2019.
  • [23] Li V.C.: On engineered cementitious composites (ECC). "Journal of Advanced Concrete Technology", 2003, 1.
  • [24] Li V.C., Kanda T.: Innovations forum: engineered cementitious composites for structural applications. "Journal of Materials in Civil Engineering", 1998, 10.
  • [25] Li V.C., Wu H.-C.: Conditions for pseudo strain-hardening in fiber reinforced brittle matrix composites. "Applied Mechanics Reviews", 1992, 45.
  • [26] Martin-Sanz H., Tatsis K., Chatzi E., Brühwiler E., Stipanovic I., Mandic A., Damjanovic D., Sanja A.: Towards the use of UHPFRC in railway bridges: the rehabilitation of Buna Bridge. Life Cycle AnaIysis and Assessment in Civil Engineering: "Towards an Integrated Vision", 2018. 5.
  • [27] Moreillon L., Menétrey P.: Rehabilitation and strengthening of existing RC structures with UHPFRC: various applications. RILEM-fib-AFGC Int. Symposium on Ultra-High Performance Fibre-Reinforced Concrete, France: RILEM Publication SARL. 2013.
  • [28] Srinivasa C., Venkatesh D.: A literature review on engineered cementitious composites for structural applications. "International Journal of Engineering Research and Technology", 2014.
  • [29] Tanaka Y., Maekawa K., Kameyama Y., Ohtake A., Musha H., Watanabe N.: The innovation and application of UHPFRC bridges in Japan. Designing and Building with UHPFRC, 2011.
  • [30] Toutlemonde F., Bernadi S., Brugeaud Y., Simon A.: Twenty years-Iong French experience in UHPFRC application and paths opened fram the completion of the standards for UHPFRC. 2018.
  • [31] Wuest J., EPF C., Brühwiler E., ETH D.: Model for predicting the UHPFRC tensile hardening. Ultra High Performance Concrete (UHPC): Praceedings of the Second International Symposium on Ultra High Performance Concrete, Kassel, Germany, 2008.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fe6ff2d2-539f-455d-b85d-2b5978daee0c
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