Science and Engineering of Composite Materials (Jan 2019)

Durability of basalt fiber-reinforced polymer bars in wet-dry cycles alkali-salt corrosion

  • Liu Jianxun,
  • Li Ning,
  • Chen Meirong,
  • Yang Jianping,
  • Long Biao,
  • Wu Zhishen

DOI
https://doi.org/10.1515/secm-2018-0030
Journal volume & issue
Vol. 26, no. 1
pp. 43 – 52

Abstract

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Basalt fiber-reinforced polymer (BFRP) bars have been increasingly applied to offshore structures, which are subjected to seawater corrosion and wet-dry cycles during their service time. This study evaluated the alkali-salt resistance performance of BFRP bars with different resin matrix types under wet-dry cycles. The tensile and shear strength of BFRP bars were tested. As a comparison, experiments of BFRP bars under continuous immersion were also conducted. The mechanisms of the two different conditions were analyzed by scanning electron microscopy (SEM). A relationship was established between the degradations under continuous immersion and wet-dry cycling. The results demonstrated that the alkali-salt resistance of vinyl resin matrix BFRP bars was superior to that of epoxy resin matrix BFRP bars under wet-dry cycles. Furthermore, according to the data obtained under continuous immersion, a time shift factor for predicting the durability of BFRP bars under wet-dry cycles was proposed.

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