Figures index

From

Study of Variation of Groove Angle on Performance Characteristics of Two-Axial Groove Journal Bearing

K. R. Kadam, S. S. Banwait

American Journal of Mechanical Engineering. 2016, 4(3), 82-91 doi:10.12691/ajme-4-3-1
  • Figure 1. Two-axial groove journal bearing geometry
  • Figure 2. Solution Scheme
  • Figure 3. Comparison between the present analysis and experimental temperature profiles Brito F. P. et al. [23] at the mid-plane of the inner bush surface of the bearing for 6000N at 1000, 2000, 3000 and 4000 rpm speeds
  • Figure 4. Comparison between attitude angle for different groove angles at different loads and at 1000 rpm and 6000 rpm
  • Figure 5. Comparison between minimum film thickness for different groove angles at different loads and at 1000 rpm and 6000 rpm
  • Figure 6. Comparison between eccentricity ratio for different groove angles at different loads and at 1000 rpm and 6000 rpm
  • Figure 7. Comparison between bush temperature for different groove angles at different loads and at 1000 rpm and 6000 rpm
  • Figure 8. Comparison between mean journal temperature for different groove angles at different loads and at 1000 rpm and 6000 rpm
  • Figure 9. Comparison between for maximum pressure for different groove angles at different loads and at 1000 rpm and 6000 rpm
  • Figure 10. Comparison between side flow for different groove angles at different loads and at 1000 rpm and 6000 rpm
  • Figure 11. Comparison between power loss for different groove angles at 10kN load and at 6000 rpm