306 / 2019-09-29 20:37:57
Shear performance of damaged concrete beams reinforced by penetrating FRP
FRP,shear performance,penetration
Draft Accepted
意余 / 武汉科技大学
姜天华 / 武汉科技大学
This experimental study examined the shear behavior of damaged concrete beams reinforced with fiber-reinforced polymer (FRP) using a penetration method (penetration FRP) to explore the failure modes of the reinforced beams. We analyzed the load-displacement curves and load-strain curves of the samples and discussed the development and distribution of the oblique cracks of the reinforced beams. The influences of the damage degree and the reinforcement angle on the shear bearing capacity were determined. The results showed that, prior to cracking, FRP reinforcement had no effect on the stiffness of the samples and the cracking load of the samples remained basically the same; however, after cracking, the samples reinforced with FRP exhibited a larger shear capacity. Moreover, the ultimate load was higher for the undamaged reinforced beam than the damaged reinforced beam. The penetration of the FRP material into the beam at an oblique angle inhibited the development of oblique cracks, resulting in a better reinforcement effect and optimal bearing capacity of the strengthened beam. A modal test of the damaged beam was also performed and the natural frequency and damping ratio of the concrete beams with different degrees of damage were analyzed. The results of this study provide guidance for reinforcement of damaged beams.
Important Date
  • Conference Date

    Nov 15

    2019

    to

    Nov 18

    2019

  • Nov 09 2019

    Draft paper submission deadline

  • Nov 18 2019

    Registration deadline

Sponsored By
南方计算力学联络委员会
江苏省力学学会
Organized By
武汉大学
华中科技大学
武汉理工大学
武汉科技大学
湖北省力学学会
海军工程大学
长江科学院
武汉市力学学会
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