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European Journal of Wood and Wood Products
Erschienen in: European Journal of Wood and Wood Products 3/2016

09.10.2015 | Original

Timber-concrete-composites increasing the use of timber in construction

verfasst von: A. Dias, J. Skinner, K. Crews, T. Tannert

Erschienen in: European Journal of Wood and Wood Products | Ausgabe 3/2016

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Abstract

Timber-concrete-composite (TCC) systems have increasingly been used in recent decades. One of the main reasons for this development is related to applications that could not be built with timber alone, but that become possible with a TCC solution. This paper first gives a short overview of the use of TCCs, the relevant regulatory framework, and then presents several case studies of TCC applications. The perspectives and examples are from Europe, North America and Oceania to give a worldwide perspective from regions where TCC systems are being used. The structural systems presented in the case studies include bridges and floors in public buildings. For each project, details of the application are presented and the way each one contributed to extend the use of timber in construction.
Vorheriger Artikel Shake table tests on a full-scale timber-frame building with gypsum fibre boards
Nächster Artikel Stress-laminated-timber decks: state of the art and design based on Swedish practice

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Literatur
Bathon L, Bletz-Mühldorfer O, Schmidt J, Diehl F (2014) Fatigue design of adhesive connections using perforated steel plates. In: Proceedings 13th World Conference on Timber Engineering 2014, Quebec
Brunner M, Romer M, Schnüriger M (2007) Timber-concrete-composite with an adhesive connector (wet on wet process). Mater Struct 40:119–126CrossRef
Calil JC (2006) Handbook for the design and construction of timber bridges. In: Proceedings 9th Conference on Timber Engineering, Portland, USA
Ceccotti A (1995) Timber-concrete composite structures. In: Blass H (ed) Timber engineering—step 2 Centrum Hout, vol 2. Centrum Hout, The Netherlands, pp 1–14
Ceccotti A (2002) Composite concrete-timber structures. Prog Struct Eng Mater 4:264–275CrossRef
CEN (2004) EN 1995-1-1: Eurocode 5: design of timber structures—part 1-1: general—common rules and rules for buildings. European Committee for Standardization, Brussels
Crews K, John S, Gerber C, Buchanan A, Smith T, Pampanin S (2010) Innovative engineered timber building systems for non-residential applications, utilising timber concrete composite flooring capable of spanning up to 8–10 m. Forest and Wood Products Australia Report PNA012-0708. ISBN: 978-1-920883-99-7, Forest and Wood Products Australia Limited, Melbourne, Australia
Dias AMPG (2012) Analysis of the nonlinear behavior of timber-concrete connections. ASCE J Struct Eng 138(9):1128–1137CrossRef
Dias AMPG, Cruz HMP, Lopes SMR, van de Kuilen JW (2010) Stiffness of dowel-type fasteners in timber-concrete joints. Proc Inst Civ Eng Struct Build 163:257–266CrossRef
Dias AMPG, Ferreira MCP, Jorge LFC, Martins HMG (2011) Timber-concrete practical applications - bridge case study. Proc Inst Civ Eng Struct Build 164(2):130–140CrossRef
Dias AMPG, Martins ARD, Simões LMC, Providência PM, Andrade AAM (2015) Statistical analysis of timber-concrete connections—mechanical properties. Comput Struct 155:67–84CrossRef
Falk B (2009) Wood as a sustainable building material. For Prod J 59(9):6–12
Fragiacomo M, Ceccotti A (2006) Long-term behavior of timber-concrete composite beams. I: finite element modeling and validation. J Struct Eng 132:13–22CrossRef
Gagnon S, Pirvu C (eds) (2011) CLT handbook: cross-laminated timber. FPInnovations, Quebeq, Canada
Gerber A, Tannert T (2015) Timber-concrete composites using flat-plate engineered wood products. In: ASCE Structures Congress, April 23–25, Portland, USA
Gerber C, Crews K, Shrestha R (2012) Design Guide Australia and New Zealand timber concrete composite floor systems. Structural Timber Innovation Company, Christchurch
Hehl S, Tannert T, Meena R, Vallee T (2014) Experimental and numerical investigations on groove connections for novel timber-concrete-composite system. J Perform Constr Facil 28:A4014010CrossRef
Karacabeyli E, Lum C (2014) Technical guide for the design and construction of Tall Wood Buildings in Canada. Special Publication (SP-55E), Pointe-Claire, Québec, FPInnovations, Canada
Meena R, Schollmayer M, Tannert T (2014) Experimental and numerical investigations on the fire-resistance of a novel timber-concrete-composite deck. J Perform Constr Facil 28:A4014009CrossRef
Möhler K (1956) Über das Tragverhalten von Biegeträgern und Druckstäben mit zusammengesetzten Querschnitten und nachgiebigen Verbindungsmitteln (Structural behavior of beams and compression elements with composite cross section and flexible connectors), habilitation, Technische Universität Karlsruhe, Germany (in German)
NBCC (2010) National Building Code of Canada, Canadian commission on building and fire codes. National Research Council of Canada, Ottawa
Negrão J, Maia de Oliveira F, Leitão de Oliveira C, Cachim P (2010) Glued composite timber-concrete beams. II: analysis and tests of beam Specimens. ASCE J Struct Eng 136:1246–1254CrossRef
NTC (2002) Timber bridges. Nordic Timber Council, Sweden
Petersen AK, Solberg B (2002) Greenhouse gas emissions, life-cycle inventory and cost-efficiency of using laminated wood instead of steel construction. Case: beams at Gardermoen airport. Environ Sci Policy 5(2):7CrossRef
Rodrigues JNA, Dias AMPG, Providência PMP (2013) Timber-concrete composite bridges: state-of-the-art review. BioResources 8(4):6630–6649CrossRef
RTA (2008) Timber concrete composite bridges. In: AUSTRÁLIA, RATAON (eds) Timber bridge manual, vol 1. Roads and Traffic Authority of NSW, Austrália, p 25
Schaenzlin J (2003) Zum Langzeitverhalten von Brettstapel-Beton-Verbunddecken. (Time-dependent behaviour of composite structures of board stacks and concrete) (In German) PhD thesis, Universität Stuttgart, Germany
SCI (2009) P354: design of floors for vibration: a new approach. The Steel Construction Institute, UK
Smith I, Frangi A (2014) Use of timber in tall multi-storey buildings. ISBN 978-3-85748-133-8, SED 13; IABSE, Zurich, Switzerland
Tommola J, Salokangas L, Jutila A (1999) Wood-concrete composite bridges—test on shear connectors. Helsinki University of Technology, Helsinki, p 19
Van der Linden M (1999) Timber concrete composite floors. PhD. Delft University of Technology, The Netherlands
Yeoh D, Fragiacomo M, De Franceschi M, Heng Boon K (2011) State of the art on timber—concrete composite structures: literature review. ASCE J Struct Eng 137:1085–1095CrossRef
Metadaten
Titel
Timber-concrete-composites increasing the use of timber in construction
verfasst von
A. Dias
J. Skinner
K. Crews
T. Tannert
Publikationsdatum
09.10.2015
Verlag
Springer Berlin Heidelberg
Erschienen in
European Journal of Wood and Wood Products / Ausgabe 3/2016
Print ISSN: 0018-3768
Elektronische ISSN: 1436-736X
DOI
https://doi.org/10.1007/s00107-015-0975-0

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