Figures index

From

Vibration Control of a Flexible Beam with Embedded Shape Memory Alloy Wire

Nicholas G. Garafolo, Garrett McHugh

Journal of Mechanical Design and Vibration. 2018, 6(1), 9-16 doi:10.12691/jmdv-6-1-2
  • Figure 1. Theoretical plot of property change vs. temperature for the Martensite to Austenite phase transformation of a shape memory alloy [13]
  • Figure 2. Silicone Beam with Embedded SMA wire Shaped into a Single Loop
  • Figure 3. Experimental Test Setup of Silicone Beam with Embedded SMA Wire
  • Figure 4. Graph Showing the Average Peak FRF Frequency vs. Temperature of all Eleven Runs Along with arctan Curve Fit
  • Figure 5. Graph showing Repeatability of Peak FRF Frequency vs. Temperature for Increasing Temperatures of all Eleven Runs
  • Figure 6. Graph showing Repeatability of Peak FRF Frequency vs. Temperature for Decreasing Temperatures of all Eleven Runs
  • Figure 7. Maximum Tip Displacement Amplitude and Natural Frequency of Actuated and Unactuated Embedded SMA Test Sample
  • Figure 8. Mode Shape of Embedded SMA Silicone beam at 75°F (Left) and 135°F (Right)
  • Figure 9. Mode Shape of Embedded Aluminum Silicone beam at 75°F (Left) and 135°F (Right)
  • Figure 10. Mode Shape of Silicone Control Sample
  • Figure 11. Mode Shape of Embedded Aluminum Silicone beam at 75°F (Left) and 135°F (Right)
  • Figure 12. Mode Shape of Embedded Aluminum Silicone beam at 75°F (Left) and 135°F (Right)