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This paper presents an experimental as well as a numerical analysis of the in-plane shear behaviour of hollow, $870{\times}840{\times}100mm$ masonry walls, externally strengthened with FRP composites. The experimental approach is devoted to the evaluation of the effectiveness of different composite strengthening configurations and the methodology consists in the diagonal compression of masonry walls. The numerical study assesses the stress and strain state distribution in the unreinforced and strengthened panels using a commercial finite element code. The effect of FRP reinforcement on the masonry behaviour and the capability of modelling to forecast a representative failure mode of the unreinforced and reinforced masonry walls is investigated.

참고문헌 (23)

  1. Albert, M., Elwi, A. and Cheng, J. (2001), 'Strengthening of unreinforced masonry walls using FRPs', J. Compos. Constr., 5(2), 76-84 
  2. Corradi, M., Borri, A. and Vignoli, A. (2002), 'Strengthening techniques tested on masonry stuctures struck by the Umbria-Marche earthquake of 1997-1998', Construction and Building Materials, 16, 229-239 
  3. Delmotte, P., Lugez, J. and Merlet, J. (1992), 'Resistance des maconneries sous charges verticales', Cahiers du CSTB, Cahier 2553 (Iivraison 326), in French 
  4. FEMA 306 (1999), 'Evaluation of earthquake damaged concrete and masonry wall buildings-basic procedures', Technical Report, Federal Emergency Management Agency, Applied Technology Council 
  5. Gabor, A. (2002), 'Contribution a la caracterisation et a la modelisation des maconneries non-renforcees et renforcees par materiaux composites', Ph.D. Thesis, Universite Lyon 1, France 
  6. Gabor, A., Ferrier, E., Jacquelin, E. and Hamelin, P. (2004), 'Analysis and modelling of the in-plane shear behaviour of hollow brick masonry panels', Construction and Building Materials, (in press) 
  7. Hamelin, P. (1998), 'Composite infrastructure applications: concept, design, durability control and prediction', J. Compos. Technol. Res. 
  8. Hendry, A., Sinha, B. and Davies, S. (1997), Design of Masonry Structures, E & FN Spon, London, UK. 
  9. Lee, J., Pande, G., Midleton, J. and Kralj, B. (1996), 'Numerical modelling of brick masonry panels subject to lateral loadings', Comput. Struct., 61(4), 735-745 
  10. Lopez, J., Oller, S., Onate, E. and Lubliner, J. (1999), 'A homogenous constitutive model for masonry', Int. J. Num. Meth. Eng., 46, 1651-1671 
  11. Lourenco, P.B. (1996), 'Computational strategies for masonry structures', Ph.D. Thesis, Technical University Delft, Delft University Press, The Netherlands 
  12. Marzahn, G. (1998), 'The shear strength of dry-stacked masonry walls', LACER, (3), 247-263, Institut fur Massivbau und Baustofftechnologie, Leipzig, Germany 
  13. Mingo, S., Jimenez, J., Alonso, M. and Hombrados, C. (2001), 'Bond of CFRP strips on damaged masonry structures', Proc. of the Int. Conf. Composites in Construction, Porto, 10-12 October. 
  14. Paulay, T. and Priestley, M. (1992), Seismic Design of Reinforced Concrete and Masonry Buildings; John Wiley & Sons, Inc. 
  15. RILEM (1994a), Technical Recommendations for the Testing and Use of Construction Materials, LUMB1-'Compressive strength of small walls and prisms', E & FN Spon, London, UK. 
  16. RILEM (1994b), Technical Recommendations for the Testing and Use of Construction Materials, LUMB5-'Short-term shear test for the interface between the masonry unit and mortar or moisture-insulating interlayer', E & FN Spon, London, UK. 
  17. RILEM (1994c), Technical Recommendations for the Testing and Use of Construction Materials, LUMB6-'Diagonal tensile strength tests of small wall specimens', E & FN Spon, London, UK. 
  18. Triantafillou, T. (1998), 'Strengthening masonry structures using epoxy bonded FRP laminates', J. Compos. Constr., 2(9), 96-104 
  19. Triantafillou, T. (2001), 'Seismic retrofitting of structures with fibre-reinforced polymers', Prog. Struct. Engng. Mater, (3), 57-65 
  20. Valluzzi, M., Tinazzi, C. and Modena, C. (2002), 'Shear behaviour of masonry panels strengthened by FRP laminates', Construction and Building Materials, 16,409-416 
  21. Priestley, M. and Seible, F. (1995), 'Design of seismic retrofit measures for concrete and masonry structures', Construction and Building Materials, 6, 365-377 
  22. Ehsani, M., Saadatmanesh, H. and Velasquez, J. (1999), 'Behavior of retrofitted URM walls under simulated earthquake loading', J. Compos. Constr., 3(3), 134-142 
  23. Gambarotta, L. and Lagomarsino, S. (1997), 'Damage models for the seismic response of brick masonry shear walls. Part I: The mortar joint model and its applications.' Earthq. Eng. Struct. Dyn., 26, 423-439 

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