Applied Sciences (Jul 2019)

Blistering Mechanism Analysis of Hydraulic Asphalt Concrete Facing

  • Zhengxing Wang,
  • Jutao Hao,
  • Zhiheng Sun,
  • Baodong Ma,
  • Shifa Xia,
  • Xiulin Li

DOI
https://doi.org/10.3390/app9142903
Journal volume & issue
Vol. 9, no. 14
p. 2903

Abstract

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Two years after the Zhanghewan Pumped-Storage Power Station was put into operation, more than 500 blisters appeared in the asphalt concrete facing of the upper reservoir, and nearly half of them ruptured at the surface. The blistering mechanism of the asphalt concrete facing was studied in this paper. Through on-site inspection and coring inspection, it was found that the blistering was caused by the vapor pressure formed by the water enclosed in the middle of the impervious layer during high temperatures. Numerical analysis showed that the temperature 5 cm below the surface could reach 50−60 °C. Through numerical analysis and model tests, the internal water at this temperature may form a vapor pressure of 20 kPa. Finally, the blister size of the asphalt concrete facing at this temperature and pressure was studied with a model test. The possible sources of moisture inside the impervious layer were also analyzed through a core test, which found that moisture was most likely to be introduced by water spraying during rolling.

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