This research develops quality control standards for fibre-reinforced polymer (FRP) bridge reinforcement, a corrosion-resistant alternative to steel. By testing FRP materials under extreme conditions, the work helps make long-lasting, rust-free bridges a reliable construction standard, reducing maintenance costs, extending bridge lifespans, and improving infrastructure resilience in coastal environments.

This research addresses the short lifespan of dental fillings by drawing inspiration from natural tooth structure. Using physics-based simulations, it designs materials with improved bonding and durability. The work has broader applications in aerospace, implants, and protective materials, demonstrating how bio-inspired engineering can enhance performance across multiple high-stress environments.