Synergistic effect of ZnO and TiO₂ nanoparticles on the thermal stability and mechanical properties of glass fiber-reinforced LY556 epoxy composites

Engineering & Materials Science

• ZnO nanoparticles 100%
• TiO2 nanoparticles 92%
• Thermodynamic stability 65%
• Glass fibers 62%
• Mechanical properties 41%
• Composite materials 37%
• Impact strength 24%
• Bending strength 20%
• Tensile strength 17%
• Fabrication 15%
• Atomic force microscopy 13%
• Wetting 10%
• Heat resistance 10%
• Microhardness 10%
• Curing 10%
• Laminates 9%
• Vacuum 9%
• Characterization (materials science) 9%
• Agglomeration 9%
• Surface roughness 8%

Chemical Compounds

• Glass 43%
• Thermal Stability 42%
• Nanoparticle 31%
• Composite Material 31%
• Impact Strength 23%
• Bend Strength 23%
• Tensile Strength 18%
• Microhardness 11%
• Surface Roughness 10%
• Agglomeration 10%
• Curing 9%
• Vacuum 8%
• Atomic Force Microscopy 8%
• Ceramic 8%
• Heat 7%
• Strength 6%
• Resistance 6%