Abstract
This study develops an electrophoretic deposition repair method explored the influence of anode materials on the repair efficiency and ability to prolong the service life of rust-cracked reinforced concrete effectively. The results show that the carbonation resistance and waterproofing performance of the repaired specimens are improved irrespective of the anode material. The material affected the morphology and thickness of the epoxy resin film on the repaired specimen surface and the depth of epoxy resin deposition within cracks, effected the waterproofing and carbonation resistance. The repair efficiency and effect were the best when a graphite plate was chosen as the anode, compared with the results observed use a graphite stick, stainless plate, stainless net, and titanium plate.
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