Long-Term Cost Performance of Corrosion-Resistant Reinforcements in Structural Concrete
الملخص
Corrosion, which leads to the premature deterioration of reinforced concrete (RC)
structures, is increasingly an issue of global concern. Accordingly, corrosion-resistant
materials have emerged as alternative reinforcement solutions in concrete structures. Yet,
the high initial cost of such materials may mitigate their potential use. This paper reports
on the results of two life-cycle-cost-analysis (LCCA) studies that aim at verifying the
long-term cost performance of corrosion-resistant reinforcements in structural concrete.
The first study conducted a 100-year-based LCCA study to evaluate the relative cost
savings of structural concrete that combines seawater, recycled coarse aggregates, and
glass fiber-reinforced polymer (GFRP) reinforcement in high-rise buildings as compared
to a traditional reinforced concrete (i.e., freshwater-mixed, natural-aggregate, black-steelreinforced).
In the second study, a life-cycle-cost comparison was established among
four reinforcement alternatives, viz., conventional steel, epoxy-coated steel, stainless
steel, and GFRP for a RC water chlorination tank considering a 100-year study period.
The results of these two studies suggest that the use of corrosion-resistant reinforcement
(especially GFRP) in structural concrete may potentially lead to significant cost savings
in the long term: the net present cost of GFRP-RC structures was generally 40-50%
lower than that reinforced with black steel.
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