Experimental and Finite Element Analysis of Pullout Test on GFRP Rebars
Palavras-chave:
GFRP, pullout, ABAQUS, finite elements, concreteResumo
Rebars with fiber glass reinforced polymer (GFRP) are a viable option in highly aggressive environ-
ments. They also make the structure lighter, more sustainable and have high corrosion resistance. In this article,
an experimental program was carried out to verify the maximum pullout force, in addition to a numerical analysis
and computational simulation. The finite element method was used for the computational simulation of concrete
reinforced with GFRP. A constant tractive force was applied at the end of the rebar, from which the strain and max-
imum principal stresses were analyzed. The displacements and concrete-GFRP adhesion were verified through the
Hertz contact theory and Coloumb friction theory, in the ABAQUS software. The results showed that the incorpo-
ration of epoxy resin had little influence on the pullout force. The experimental and numerical analysis showed an
increase of about 20% in the pullout force of the GFRP bars, although this should not be the only limiting factor
for the use of GFRP rebars in civil construction.
