![]() This report summarizes the project findings and provides recommendations for the implementation of SFRC in Arizona Department of Transportation infrastructure. Finally, all results were compiled to develop design recommendations and an implementation plan. ![]() ![]() Results of the case studies informed the development of an experimental test program. This was followed by case studies on implementation of SFRC for pavement and bridge decks. The first was a review of the literature on SFRC applications to elevated slabs and slabs-on-grade. The project consisted of four main tasks. This project investigated the application of SFRC in pavements and bridge decks to reduce the amount of traditional steel used and to improve service level performance. ![]() To maximize the benefits of SFRC, it is necessary to establish optimal mix designs, identify target projects for implementation, and validate design procedures for SFRC. These benefits can result in cost savings in both the short term (construction labor) and the long term (improved quality and durability). This can lead to a reduction in structure weight and improvements in the safety and speed ofĬonstruction. This improved performance can be used in slabs to reduce the volume of conventional steel reinforcement, create longer spans, or reduce slab thickness. Steel fiber-reinforced concrete (SFRC) provides improved tensile performance of concrete.
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