DOI QR코드

DOI QR Code

Nonlinear analysis of connectors applied on concrete composite constructions

  • Winkler, B. (Hilti Corporation, New Business & Technology) ;
  • Bianchi, P. (Hilti Corporation, New Business & Technology) ;
  • Siemers, M. (Hilti Corporation, New Business & Technology)
  • 투고 : 2005.11.02
  • 심사 : 2006.04.27
  • 발행 : 2006.04.01

초록

To place concrete overlays has become a standard application in the strengthening and rehabilitation of concrete structures such as bridges, tunnels, parking decks and industrial buildings. In general, connectors are used to ensure a monolithic behavior of the two concrete layers. Within the framework of the development of a new connector wedge splitting tests and shear tests were performed, in addition nonlinear finite element analyses were applied to investigate the load transfer behavior of the connectors for different prototypes. The numerical simulation results were compared to experimental data. The computed load-displacement curve demonstrates good correspondence with the curves obtained in the experiments, and the experimental crack patterns are reasonably simulated by the computed crack propagation. Both numerical and experimental investigations on the wedge splitting test and on the shear test served as basis for the development of new type of connectors.

키워드

참고문헌

  1. CEB-FIP (1991), Model Code 1990, Bulletin d'information. Comite Euro-International du Beton (CEB), Lausanne
  2. Nienstedt, J. and Dietrich, C. (1995), 'Application of the finite element method to anchoring technology in concrete', In F.H. Wittmann (ed): Fracture Mechanics of Concrete Structures, 1909-1914. Freiburg/Breisgau: Aedificato Publishers
  3. Nienstedt, J., Mattner, R. and Wiesbaum J. (1999), 'Constitutive modelling of concrete in numerical simulation of anchoring technology', In R. Avent & M. Alawady (eds): Structural engineering in the 21st century, 211-214. New Orleans: ASCE
  4. Nienstedt, J. and Mattner, R. (2001), 'Three-dimensional modelling of anchoring systems in concrete', In de Borst et al. (eds): Fracture Mechanics of Concrete Structures, 1021-1026. Lisse: Swets & Zeitlinger
  5. Nienstedt, J., Mattner, R., Nestler, U. and Song, C. (2001), 'Simulation of fastening systerms utilizing chemical and mechanical anchors', In R. Eligehausen (ed): Conmections between Steel and Concrete, 708-716. Stuttgart: RILEM Publications
  6. Randl, N. (1997), 'Untersuchungen zur Kraftubertragung zwischen Alt-und Neubeton bei unterschiedlichen Fugenrauhigkeiten', PhD-thesis, University of Innsbruck, Austria
  7. Tschegg, E.K., Ingruber M., Surberg C.H. and Munger F. (2000), 'Factors influencing fracture behavior of old-new concrete bonds', ACI Mater. J. 97(4), 447-453
  8. Tsoukantas, S.G. and Tassios, T.P. (1989), 'Shear resistance of connections between reinforced concrete linear precast elements', ACI Struct. J. 86(3), 242-249