Precast eurocode 28/30/2023 With the established links, sustainability is maximized while resilience is retained by optimizing HPFRCC mixtures. The investigated mechanical properties include the first crack stress, ultimate tensile strength, and ultimate tensile strain. This paper establishes links between resilience, sustainability, mechanical properties of HPFRCC, and HPFRCC mixtures. This research considers ultra-high-performance concrete and strain-hardening cementitious composite featuring high mechanical properties, ductility, and damage tolerance. This paper presents a framework to optimize HPFRCC for improving bridge resilience and sustainability. High-performance fiber-reinforced cementitious composites (HPFRCC) have shown benefits in improving infrastructure resilience but often compromises sustainability due to the higher upfront cost and carbon footprint compared with conventional concrete.
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