Evaluation of parameters effective in FRP shear strengthening of RC beams using FE method


Autoria(s): Elyasian, I.; Abdoli, N.; Ronagh, H. R.
Contribuinte(s)

Professor A. Kaveh

Data(s)

01/06/2006

Resumo

Shear strengthening is required when an RC beam is found deficient in shear, or when its shear capacity falls below its flexural capacity after flexural strengthening. A recent technique for the shear strengthening of RC beams is to provide additional FRP web reinforcement, commonly in the form of bonded external FRP strips/sheets. Over the last few years, several experimental studies have been conducted on this new strengthening technique, which has established its effectiveness. While experimental methods of investigation are extremely useful in obtaining information about the composite behaviour of FRP and reinforced concrete, the use of numerical models such as the one presented in this paper helps in developing a good understanding of the behaviour at lower costs. In the study presented in this paper, ANSYS finite element program is used to examine the response of beams strengthened in shear by FRPs. The FE model is calibrated against test results performed at the University of Kentucky. Once validated, the model is used to examine the influence of fibre orientation, compressive strength of concrete, area of tensile and compressive reinforcements, and amount and distance between stirrups on the strength and ductility of FRP strengthened beam.

Identificador

http://espace.library.uq.edu.au/view/UQ:82850

Idioma(s)

eng

Publicador

BHRC

Palavras-Chave #reinforced concrete #finite element model #shear strengthening #FRP laminates #C1 #290801 Structural Engineering #680203 Civil
Tipo

Journal Article