Difference between revisions of "Kalyan 4-25-08"
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| − | + | Region 3 sector orientations can be understood as follows | |
| − | All of | + | {| align="left" border="0" |
| + | |- | ||
| + | |[[Image:sector_orientation.jpg| 450 px]] | ||
| + | |- | ||
| + | |[[Image:sector_orientation2.jpg| 350 px]] | ||
| + | |- | ||
| + | | Figure 4.25.08.1: Sector Orientation | ||
| + | |} | ||
| + | |||
| + | |||
| + | The sectors were counted from the negative Zero degree of the x-axis. | ||
| + | So, The sector in the left side going through the x-axis is given 1 and counted clockwise direction from 1-6 as shown in the figure | ||
| + | The ideal case of gravity is the case where the chamber is positioned in a way that the back plate is on the top of the nose plate. However, the chamber tilt angle is addressed. | ||
| + | This case is analyzed just to understand the deflection patterns and practically there is no similarity to any of the sectors. | ||
| + | |||
| + | |||
| + | 5 sets of Analysis were carried out as follows. | ||
| + | |||
| + | |||
| + | All of the analysis has Carbon rods. Hexcel sheet and No mylar sheet were not included in the model. | ||
| + | Left hinge on the back plate is completely constrained, right hinge was allowed to move along the back Plate length(x-axis) and front face of the nose plate was constrained completely. acceleration was applied to the chamber in the opposite side of the gravity, resembling gravity in each case | ||
* Wire Loads are 1512N on all the 4 hole areas | * Wire Loads are 1512N on all the 4 hole areas | ||
* Material Properties | * Material Properties | ||
| + | |||
| + | |||
{| border="1" |cellpadding="20" cellspacing="0 | {| border="1" |cellpadding="20" cellspacing="0 | ||
|- | |- | ||
| Line 14: | Line 36: | ||
| Aluminum || 68900 || 2.7e-006 || 0.33 | | Aluminum || 68900 || 2.7e-006 || 0.33 | ||
|- | |- | ||
| − | | | + | | Stainless steel || 1.93e+005|| 8.e-006 || 0.3 |
|- | |- | ||
| − | | Carbon fiber || | + | | Carbon fiber || 1.5e+005|| 5.8e-007 || 0.3 |
|} | |} | ||
=Case 1. No gravity= | =Case 1. No gravity= | ||
| + | |||
{| align="center" border="0" | {| align="center" border="0" | ||
|- | |- | ||
| + | |[[Image:4_25_08_1o.jpg| 400 px]] | ||
| + | || | ||
|[[Image:4_25_08_1d.jpg| 600 px]] | |[[Image:4_25_08_1d.jpg| 600 px]] | ||
|- | |- | ||
| − | | Figure 4.25.08.1: Total Deformation | + | | Figure 4.25.08.1: Analysis case1 orientation and on the right showing Total Deformation |
|} | |} | ||
| Line 38: | Line 63: | ||
{| align="center" border="0" | {| align="center" border="0" | ||
|- | |- | ||
| + | |[[Image:4_25_08_2o.jpg| 400 px]] | ||
| + | || | ||
|[[Image:4_25_08_2d.jpg| 600 px]] | |[[Image:4_25_08_2d.jpg| 600 px]] | ||
|- | |- | ||
| − | | Figure 4.25.08.2 | + | | Figure 4.25.08.1: Analysis case 2 orientation and on the right showing Total Deformation |
|} | |} | ||
| + | |||
| Line 48: | Line 76: | ||
The analysis report is available at [[Image:4_25_08_2.pdf]] | The analysis report is available at [[Image:4_25_08_2.pdf]] | ||
| − | =Case 3. | + | =Case 3. Sector 3= |
| + | |||
{| align="center" border="0" | {| align="center" border="0" | ||
|- | |- | ||
| + | |[[Image:4_25_08_3o.jpg| 600 px]] | ||
| + | || | ||
|[[Image:4_25_08_3d.jpg| 600 px]] | |[[Image:4_25_08_3d.jpg| 600 px]] | ||
|- | |- | ||
| − | | Figure 4.25.08.3: Total Deformation | + | | Figure 4.25.08.3: Analysis case 3 orientation and on the right showing Total Deformation |
|} | |} | ||
| Line 62: | Line 93: | ||
The analysis report is available at [[Image:4_25_08_3.pdf]] | The analysis report is available at [[Image:4_25_08_3.pdf]] | ||
| − | =Case 4. | + | =Case 4. Sector 4= |
{| align="center" border="0" | {| align="center" border="0" | ||
|- | |- | ||
| + | |[[Image:4_25_08_4o.jpg| 600 px]] | ||
| + | || | ||
|[[Image:4_25_08_4d.jpg| 600 px]] | |[[Image:4_25_08_4d.jpg| 600 px]] | ||
|- | |- | ||
| − | | Figure 4.25.08.4: Total Deformation | + | | Figure 4.25.08.4: Analysis case 4 orientation and on the right showing Total Deformation |
|} | |} | ||
| + | |||
| Line 76: | Line 110: | ||
The analysis report is available at [[Image:4_25_08_4.pdf]] | The analysis report is available at [[Image:4_25_08_4.pdf]] | ||
| − | =Case 5. | + | =Case 5. Sector 5= |
{| align="center" border="0" | {| align="center" border="0" | ||
|- | |- | ||
| + | |[[Image:4_25_08_5o.jpg| 600 px]] | ||
| + | || | ||
|[[Image:4_25_08_5d.jpg| 600 px]] | |[[Image:4_25_08_5d.jpg| 600 px]] | ||
|- | |- | ||
| − | | Figure 4.25.08.5: Total Deformation | + | | Figure 4.25.08.5: Analysis case 5 orientation and on the right showing Total Deformation |
|} | |} | ||
Latest revision as of 09:36, 17 July 2008
Region 3 sector orientations can be understood as follows
|
|
| Figure 4.25.08.1: Sector Orientation |
The sectors were counted from the negative Zero degree of the x-axis.
So, The sector in the left side going through the x-axis is given 1 and counted clockwise direction from 1-6 as shown in the figure
The ideal case of gravity is the case where the chamber is positioned in a way that the back plate is on the top of the nose plate. However, the chamber tilt angle is addressed.
This case is analyzed just to understand the deflection patterns and practically there is no similarity to any of the sectors.
5 sets of Analysis were carried out as follows.
All of the analysis has Carbon rods. Hexcel sheet and No mylar sheet were not included in the model.
Left hinge on the back plate is completely constrained, right hinge was allowed to move along the back Plate length(x-axis) and front face of the nose plate was constrained completely. acceleration was applied to the chamber in the opposite side of the gravity, resembling gravity in each case
- Wire Loads are 1512N on all the 4 hole areas
- Material Properties
| Name of the Material | Young's Modulus (MPa) | Density (kg/Cu.mm ) | Poisson's Ratio |
| Polyurethane | 66 | 2.4e-007 | 0.3 |
| Aluminum | 68900 | 2.7e-006 | 0.33 |
| Stainless steel | 1.93e+005 | 8.e-006 | 0.3 |
| Carbon fiber | 1.5e+005 | 5.8e-007 | 0.3 |
Case 1. No gravity
|
| |
| Figure 4.25.08.1: Analysis case1 orientation and on the right showing Total Deformation |
The remaining pictures with X, Y, Z Deformations are available at Remaining pictures of Case_1
The analysis report is available at File:4 25 08 1.pdf
Case 2. Ideal case of gravity
|
| |
| Figure 4.25.08.1: Analysis case 2 orientation and on the right showing Total Deformation |
The remaining pictures with X, Y, Z Deformations are available at Remaining pictures of Case_2
The analysis report is available at File:4 25 08 2.pdf
Case 3. Sector 3
|
| |
| Figure 4.25.08.3: Analysis case 3 orientation and on the right showing Total Deformation |
The remaining pictures with X, Y, Z Deformations are available at Remaining pictures of Case_3
The analysis report is available at File:4 25 08 3.pdf
Case 4. Sector 4
|
| |
| Figure 4.25.08.4: Analysis case 4 orientation and on the right showing Total Deformation |
The remaining pictures with X, Y, Z Deformations are available at Remaining pictures of Case_4
The analysis report is available at File:4 25 08 4.pdf
Case 5. Sector 5
|
| |
| Figure 4.25.08.5: Analysis case 5 orientation and on the right showing Total Deformation |
The remaining pictures with X, Y, Z Deformations are available at Remaining pictures of Case_5
The analysis report is available at File:4 25 08 5.pdf