4.5 Article

Numerical modelling of bond behaviour between steel and CFRP laminates with a ductile adhesive

出版社

ELSEVIER SCI LTD
DOI: 10.1016/j.ijadhadh.2020.102753

关键词

Ductile adhesives; Effective bond length; Finite element model; Bond-slip model

资金

  1. Fundamental Research Funds for the Central Universities (CHD) [300102289106, 310828161009]
  2. National Natural Science Foundation of China [51808047]
  3. Natural Science Basic Research Plan in Shaanxi Province of China [2019JQ-049, 2014JM2-5080]
  4. Lab of Composite Material and Structure (School of Civil Engineering, Harbin Institute of Technology)
  5. Huntsman Company (Switzerland)

向作者/读者索取更多资源

This study investigated the bond behavior of CFRP-to-steel joints bonded with ductile adhesive through numerical studies and single lap pull tests. The developed finite element model demonstrated good agreement between experimental and numerical results, showing the effectiveness and accuracy of the model in analyzing the bond behavior. Additionally, a parametric analysis was conducted to explore the effect of different parameters on the bonding performance, leading to the proposal of a model for effective bond length based on numerical results.
Ductile adhesives are more appropriate than brittle adhesives for steel structure strengthening by adhesively bonding carbon fibre reinforced polymer (CFRP) due to its greater strain capacity, leading to larger loading and deformation capability. This paper investigated the bond behaviour of CFRP-to-steel joints bonded with a ductile adhesive via numerical studies. Single lap pull tests were also conducted, and the load-displacement relationship at the loaded end and the strain distribution along the CFRP plate were examined. A bond-slip relationship was derived from the test, and based on this, an isosceles trapezoid bond-slip model was proposed. A finite element model was developed for FE analysis of the bond behaviour of the CFRP to steel interface by using the proposed bond-slip model. The finite element model was used to model the experiments, and the good agreement between the experimental results and numerical results demonstrate the effectiveness and accuracy of the finite element model. Finally, a systemically parametric analysis was performed to investigate the effect of FRP modulus, adhesive equivalent strain, adhesive tensile strength and adhesive thickness on initial stiffness, effective bond length and ultimate load. Finally based on the numerical results, a model of effective bond length was proposed.

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