Abstract
This chapter explores the characterization of mechanical and fracture behavior in nanocomposites and reinforced laminated structures. Nanocomposites, materials incorporating reinforcements on the nanoscale, offer potential for significant enhancements in properties compared to traditional composites. Reinforced laminated structures, often utilizing fiber-based reinforcements, are widely used in engineering applications due to their high strength-to-weight ratio. However, understanding their deformation and fracture under stress is crucial for optimal design and performance. This chapter explores various testing methodologies, such as tensile tests and fracture mechanics experiments, to characterize these material properties. The data obtained can then be applied to optimize the design of nanocomposites and laminated structures for real-world applications in sectors like aerospace and automotive engineering.