Effects of fiber hybridization in advanced cementitious composites durability in humid and aggressive environments
Resumen
Reactive powder concrete (RPC) is one type of advanced cementitious composite that has been increasinglyused. Its high mechanical strength enables the application of the composite in bolder structures. Considering
its recent history of use, there is a lack of knowledge about this materials durability. Therefore, this paper
aimed to evaluate the behavior of hybrid fiber reinforced RPC under accelerated testing, evaluating different
hybrid fiber combinations. Composites contained metallic microfibers and polypropylene fibers in the following
proportions: 100/0%, 75/25%, 50/50%, and 0/0% (metallic/polypropylene). Accelerated tests were
performed (salt spray, carbonation and acid immersion), as well as 3D microtomography analyses, in order to
visualize the distribution of fibers throughout the matrix. Results indicated high durability under some aggressive
wet environments, with no signs of carbonation, nor damage caused by salt spray, and small damage
related to sulfuric acid attack. In addition, it was possible to observe in the 3D microtomography images that
fibers are well distributed in the matrix volume, and that there is no transition zone in the material due to the
reduced volume void.
Keywords: Reactive powder concrete; Chemical attack; Durability; Deterioration; Fibers hybridization.
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2019-03-13
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This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.