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New Generation Cementitious Composites with fibres – properties and application

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Warianty tytułu
PL
Fibrokompozyty cementowe nowej generacji – właściwości i zastosowania
Języki publikacji
EN
Abstrakty
EN
The paper presents the properties of new generation cementitious composites with fibres, such as "bendable concrete" (ECC, Engineered Cementitious Composites) (plastic, not brittle but resistant to cracking material) with the addition of polyvinyl alcohol (PVA) fibres, high performance concrete (HPC) with glass fibres, reactive powder concrete (RPC) (characterized by ultra-high compressive strength, above 200 MPa) with short steel fibres. The detailed characteristics of the composition of the cement matrix and the role of fibres in the formation of the composite properties are described. Various applications of the composites as structural and architectural materials are also given.
PL
W artykule przedstawiono właściwości najnowszej generacji kompozytów cementowych z dodatkiem włókien, m.in. "betonów zginalnych" (ECC) (plastycznych, a nie kruchych przy zginaniu, odpornych na pękanie) z włóknami polialkoholowinylowymi (PVA), wysokowartościowych betonów (HPC) z włóknami szklanymi, betonów z proszków reaktywnych (RPC) (cechujących się ultrawysoką wytrzymałością na ściskanie − powyżej 200 MPa) z krótkimi włóknami stalowymi. Szczegółowo scharakteryzowano skład matrycy cementowej oraz opisano rolę, jaką spełniają włókna w kształtowaniu właściwości kompozytu. Pokazano możliwości zastosowania kompozytów jako materiałów konstrukcyjnych oraz architektonicznych.
Rocznik
Strony
85--102
Opis fizyczny
Bibliogr. 57 poz.
Twórcy
autor
  • Institute of Building Materials and Structures, Faculty of Civil Engineering, Cracow University of Technology
Bibliografia
  • [1] Aïtcin P.-C., Cements of yesterday and today. Concrete of tomorrow, Cement and Concrete Research, 30, 2000, 1349-1359.
  • [2] Aïtcin P.-C., High-Performance Concrete, E&FN Spon, 1998.
  • [3] Aïtcin P.-C., The art and science of durable high-performance concrete, Conference “Concrete Days”, Szczyrk, 8–10.10.2002, 7-36 (in Polish).
  • [4] Bentur A., Mindess S., Fibre reinforced cementitious composites, Taylor&Francis, 2007.
  • [5] Blais P.Y., Couture M., Precast, prestressed pedestrian bridge – world’s first reactive powder concrete structure, PCI (Precast/Prestressed Concrete Institute) Journal, September–October 1999, 60-71.
  • [6] Brandt A.M., Cement based composites: materials, mechanical properties and performance, Taylor&Francis, 2009.
  • [7] Brandt A.M., New generations of structural concrete, Building Materials, 9, 2001, 182-188 (in Polish).
  • [8] Chawla K.K., Fibrous materials, Cambridge University Press, 2005.
  • [9] Czarnecki L., Kurdowski W., Tendencies shaping the future of concrete, Conference “Concrete Days”, Wisła, 9–11.10.2006, 47-64 (in Polish).
  • [10] Glinicki M.A., Concrete with structural reinforcement, 25th Workshop for Structural Designers (“WPPK’2010”), Szczyrk, 10–13.03.2010, 279-308 (in Polish).
  • [11] Hannant D.J., Fibre-reinforced concrete, [in:] J. Newman, B.S. Choo (Eds.), Advanced Concrete Technology. Processes, Elsevier Ltd., 2003, Chapter 6.
  • [12] Henry K.A., Seibert P.J., Manufacturing UHPC architectural products, CPI (Concrete Plant International), Special Print: Concrete Technology, October 2011.
  • [13] Kaszyńska M., HPC: opportunities, properties, applications, 17th Workshop for Structural Designers (“WPPK’2002”), Ustroń, 20–23.02.2002 (in Polish).
  • [14] Kurdowski W., Chemistry of cement and concrete, Association of Cement Manufacturers / Polish Scientific Publisher, 2010 (in Polish).
  • [15] Lappa E.S., High Strength Fibre Reinforced Concrete. Static and fatigue behaviour in bending, PhD Thesis, Deft University of Technology, Deft, The Netherlands, 28.06.2007.
  • [16] Lepech M.D., Li V.C., Long term durability performance of engineered cementitious composites, International Journal for Restoration of Buildings and Monuments, Vol. 12, No. 2, 2006, 119-132.
  • [17] Li V.C., Advances in ECC research, ACI (American Concrete Institute), SP 206-23, 2002, 373-400.
  • [18] Li V.C., Bendable composites. Ductile concrete for structures, Structure, July 2006, 45-48.
  • [19] Li V.C., Durable overlay systems with Engineered Cementitious Composites (ECC), International Journal for Restoration of Buildings and Monuments, Vol. 9, No. 2, 2003, 1-20.
  • [20] Li V.C., Engineered Cementitious Composites (ECC) – material, structural and durability performance, Concrete Construction Engineering Handbook, Taylor&Francis, 2008, Chapter 24.
  • [21] Li V.C., High Performance Fiber Reinforced Cementitious Composites as durable material for concrete structure repair, International Journal for Restoration of Buildings and Monuments, Vol. 10, No. 2, 2004, 163-180.
  • [22] Li V.C., Kanda T., Engineered Cementitious Composites for structural applications, Journal of Materials in Civil Engineering, Vol. 10, No. 2, 1998, 66-69.
  • [23] Li V.C., Yang E., Self healing in concrete materials, van der Zwaag S., Self Healing Materials. An Alternative Approach to 20 Centuries of Materials Science, Springer, 2007, 161-193.
  • [24] Łukasik U., J., Acker P., Vernet Ch., Behloul M., Ductal®: ultrahigh-performance concrete with ductility, Conference “Concrete Days”, Wisła, 11–13.10.2004, 111-124 (in Polish).
  • [25] Maeder U., Lallemant-Gamboa I., Chaignon J., Lombard J.P., CERACEM – a new high performance concrete: characterization and applications, International Symposium “Ultra High Performance Concrete” (“UHPC”), Kassel, Germany, 13–15.09.2004, 67-76.
  • [26] Mindess S., High performance concrete: recent developments in material design, International Seminar “Design and Application of High Performance Cement Based Materials”, IPPT PAN, Warszawa, 16–18.10.2003.
  • [27] Naaman A.E., High performance fiber reinforced cement composites: classification and applications, International Workshop “Cement Based Materials and Civil Infrastructure” (“CBM-CI”), Karachi, Pakistan, 10–11.12.2007, 389-401.
  • [28] Neville A.M., Properties of concrete, Association of Cement Manufacturers, Cracow, 2012 (in Polish).
  • [29] Nocuń-Wczelik W., Application of silica fume in concrete technology, Ceramic Materials, 2, 2007, 68-71 (in Polish).
  • [30] Perry V.H., Seibert P.J., Manufacturing UHPC artisan products, CPI (Concrete Plant International), Special Print: Concrete Technology, August 2011.
  • [31] Perry V.H., Seibert P.J., Manufacturing Ultra-High Performance Concrete structural products, CPI (Concrete Plant International), Special Print: Concrete Technology, June 2011.
  • [32] Perry V.H., Seibert P.J., Working with Ductal Ultra-High Performance Concrete, CPI (Concrete Plant International), Special Print: Concrete Technology, February 2011.
  • [33] Richard P., Cheyrezy M., Composition of reactive powder concrete, Cement and Concrete Research, Vol. 25, No. 7, 1995, 1501-1511.
  • [34] Richard P., Cheyrezy M., Reactive Powder Concrete with high ductility and 200–800 MPa compressive strength, ACI (American Concrete Institute), SP 144-24, 1994, 507-518.
  • [35] Russell H.G., Graybeal B.A., Ultra-High Performance Concrete: a state-of-the-art Report for the Bridge Community, Report No. FHWA-HRT-13-060, Federal Highway Administration, McLean (VA), USA, June 2013.
  • [36] Shah S.P., High Performance Concrete: strength vs. ductility and durability, International Symposium on Non-Traditional Cement & Concrete, Brno, Czech Republic, 11–13 June 2002, 347-358.
  • [37] Sorelli L., Constantinides G., Ulm F.J., Toutlemonde F., The nano-mechanical signature of Ultra High Performance Concrete by statistical nanoindentation techniques, Cement and Concrete Research, 38, 2008, 1447-1456.
  • [38] Śliwiński J., Zdeb T. Reactive Powder Concrete (RPC) as ultra high strength cement-based composite, New Generation Cement Concretes (NGCC) − Ideas, Design, Technology and Applications, LLP-ERASMUS-IP 9203-0574, Kraków 2010, 108-122.
  • [39] Toutlemonde F., Resplendino J. (editors), Designing and building with UHPFRC: state-of-the-art and development, John Wiley&Sons, 2011.
  • [40] Vicenzino E., Culham G., Perry V.H., Zakariasen D., Chow T.S., First use of UHPFRC in thin precast concrete roof shell for Canadian LRT Station, PCI (Precast/Prestressed Concrete Institute) Journal, Vol. 50, September-October 2005, 50-67.
  • [41] Wang S., Li V.C., Polyvinyl alcohol fiber reinforced engineered cementitious composites: material design and performances, International RILEM Workshop “High Performance Fiber Reinforced Cementitious Composites (HPFRCC) in Structural Applications”, Honolulu, Hawaje, 23–26.05.2005, 65-73.
  • [42] Yang Y., Lepech M.D., Yang E.-H., Li V.C., Autogenous healing of engineered cementitious composites under wet-dry cycle, Cement and Concrete Research, 39, 2009, 382-390.
  • [43] Zdeb T., Śliwiński J., The influence of steel fibre content and curing conditions on mechanical properties and deformability of Reactive Powder Concrete in bending, 9th International Symposium “Brittle Matrix Composites” (BMC 9), Warszawa, 25–28 October 2009, 33-42.
  • [44] van Zijl G.P.A.G., Wittman F.H., Durability of strain-hardening fibre-reinforced cement-based composites (SHCC), RILEM State-of-the-Art Reports, Vol. 4, Springer, 2011.
  • [45] Zych T., Contemporary fibre reinforced concrete – possibility of forming of structural elements and architectural forms, Czasopismo Techniczne (Technical Transactions), 8-A, Issue 18, 2010, 371-386 (in Polish).
  • [46] PN-EN 206-1:2003 Concrete–Part 1: Specification, properties, production and conformity (in Polish).
  • [47] http://f2fcontinuum.wordpress.com/notes-on-materials-and-techniques; access: 15.09.2013.
  • [48] http://www.architecturalmaterials.com/gfrc-high-performance-cement-cladding; access: 15.09.2013.
  • [49] http://www.bsieiffage.com; access: 15.09.2013.
  • [50] http://www.dezeen.com/2007/12/03/thiais-bus-centre-by-ecdm-architects; access: 15.09.2013.
  • [51] http://www.designboom.com/architecture/mucem-by-rudy-riccioti-sports-a-delicate-concrete-filigree; access: 15.09.2013.
  • [52] http://www.ductal-lafarge.com; access: 15.09.2013.
  • [53] http://www.grcenvironments.com.au; access: 15.09.2013.
  • [54] http://www.grcuk.com; access: 15.09.2013.
  • [55] http://www.kuraray.eu; access: 15.09.2013.
  • [56] http://www.nxtbook.fr/newpress/Sika/ceracem; access: 15.09.2013.
  • [57] http://www.theconcreteportal.com/reac_pow.html; access: 15.09.2013
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ce1455d9-93cb-4263-9122-b7418901bff6
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