Mechanical Behavior for Hybrid Metal Nanoparticles-Based Thermoplastic Laminates for Aeronautical Applications

The creation of hybrid metal nanoparticle-based thermoplastic laminates represents a significant leap in materials research, especially for aeronautical applications. These laminates include nanoparticles such as silver, copper, or aluminum into thermoplastic matrices, providing increased mechanical properties like as tensile strength, toughness, and durability while retaining the lightweight features required for aviation. The introduction of nanoparticles improves load transfer efficiency, reduces micro-crack propagation, and increases fatigue and impact stress resistance, all of which are critical for aircraft structural components. Furthermore, the adjustable thermal and electrical properties of metal nanoparticles aid in effective heat dissipation and electromagnetic interference (EMI) shielding, hence improving the safety and efficiency of modern airplanes. This research examines recent advances in hybrid metal nanoparticle-reinforced thermoplastic laminates, including their mechanical properties, production processes, and possible applications in aerospace.