Effect of laminate stacking sequence on the high frequency fatigue behavior of SCS-6 fiber-reinforced Si₃N₄ matrix composites

Physics & Astronomy

• laminates 100%
• ceramic matrix composites 88%
• composite materials 65%
• fibers 60%
• fiber-matrix interfaces 59%
• matrices 58%
• sliding 40%
• heating 27%
• heat generation 25%
• hot pressing 24%
• encounters 22%
• silicon carbides 20%
• stiffness 18%
• friction 18%
• energy dissipation 17%
• hysteresis 16%
• damage 15%
• low frequencies 15%
• cycles 14%
• temperature 12%

Engineering & Materials Science

• Laminates 97%
• Fatigue of materials 74%
• Fibers 73%
• Ceramic matrix composites 70%
• Composite materials 62%
• Heating 25%
• Microcracking 24%
• Hot pressing 20%
• Heat generation 19%
• Silicon carbide 19%
• Hysteresis 17%
• Energy dissipation 15%
• Temperature 14%
• Stiffness 12%
• Friction 12%

Chemical Compounds

• Composite Material 53%
• Ceramic 30%
• Fiber 25%
• Silicon Carbide 14%
• Dissipation 14%
• Hysteresis 13%
• Heat 9%
• Energy 6%