Figures index

From

Single-objective Optimization of Passive Shock Absorber for Landing Gear

Fenghui Shi, Warren Isaac Anak Dean, Taikei Suyama

American Journal of Mechanical Engineering. 2019, 7(3), 107-115 doi:10.12691/ajme-7-3-1
  • Figure 1. Schematic diagrams of passive shock absorber without metering pin
  • Figure 2. Schematic diagrams of passive shock absorber with metering pin
  • Figure 3. Schematic diagrams of the metering pin constructions
  • Figure 4. Model of an aircraft landing gear
  • Figure 5. Diagrams of metering pins with single and three-tapered profile using optimal solutions
  • Figure 6. Diagrams of metering pins with single and three parabolic profiles using optimal solutions
  • Figure 7. Simulation of accelerations for shock absorber without metering pin
  • Figure 8. Simulation of resistance forces for shock absorber without metering pin
  • Figure 9. Comparison of single-taper and three-taper for optimization at 130t and 85t
  • Figure 10. Comparison of single-parabolic and three-parabolic for optimization at 130t and 85t
  • Figure 11. Comparison of three-parabolic and without metering pin for optimization at 130t and 85t
  • Figure 12. Efficiency for shock absorbers