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

INIS

• loading 100%
• nanoparticles 100%
• stability 100%
• zinc oxides 100%
• titanium oxides 100%
• mechanical properties 100%
• fiberglass 100%
• epoxides 100%
• tensile strength 66%
• fabrication 66%
• impact strength 66%
• flexural strength 66%
• heat 33%
• comparative evaluations 33%
• distribution 33%
• surfaces 33%
• values 33%
• dispersions 33%
• wettability 33%
• atomic force microscopy 33%
• ceramics 33%
• hands 33%
• agglomeration 33%
• curing 33%
• roughness 33%
• microhardness 33%
• property values 33%
• strength (tensile) 33%

Material Science

• Mechanical Property 100%
• Composite Material 100%
• Glass Fiber 100%
• Epoxy 100%
• ZnO 100%
• Thermal Stability 100%
• Titanium Dioxide 100%
• Impact Strength 50%
• Ultimate Tensile Strength 37%
• Flexural Strength 25%
• Mechanical Strength 12%
• Ceramics 12%
• Mechanical Testing 12%
• Surface Roughness 12%
• Heat Resistance 12%
• Microhardness 12%
• Mechanical Property 12%
• Dispersion 12%
• Wettability 12%
• Composite Laminate 12%

Engineering

• Property Value 12%
• Heat Resistance 12%