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Numerical analysis of glulam beams reinforced with CFRP plates

    Ivan Glišović Affiliation
    ; Marko Pavlović Affiliation
    ; Boško Stevanović Affiliation
    ; Marija Todorović Affiliation

Abstract

This paper presents an analysis of bending behaviour of glued laminated timber (glulam) beams reinforced with carbon fibre reinforced polymer (CFRP) plates, based on finite element numerical modelling. Nonlinear 3-dimen­sional model was developed and validated by experimental tests carried out on unreinforced beams and beams reinforced with two different reinforcement arrangements. Suitable constitutive relationships for each material were utilised in the model, as well as anisotropic plasticity theory for timber in compression. Adhesive bond between CFRP plate and timber was modelled as a perfect connection. Beam failure in the model was defined by maximum stress criterion. The predicted behaviour of beams has shown good agreement with the experimental results in relation to load-deflection relationship, ultimate load, elastic stiffness and strain profile distribution. The non-linear behaviour of reinforced beams before failure was also achieved in the numerical analysis, confirming the finite element model to be accurate past the linear-elastic range. Experimentally tested reinforced beams usually failed in tensile zone after compressive plasticiza­tion of top lamination, which was also simulated in the numerical model. The results proved that the load carrying ca­pacity, stiffness and ductility of glulam beams were successfully increased by addition of CFRP plate at tension side of the section.

Keyword : glulam, beam, carbon fibres, reinforcement, bending test, finite element modelling

How to Cite
Glišović, I., Pavlović, M., Stevanović, B., & Todorović, M. (2017). Numerical analysis of glulam beams reinforced with CFRP plates. Journal of Civil Engineering and Management, 23(7), 868-879. https://doi.org/10.3846/13923730.2017.1341953
Published in Issue
Jul 3, 2017
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This work is licensed under a Creative Commons Attribution 4.0 International License.