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Author: Ben Lovegrove 2024/09/26
Revised Design
The front landing gear were updated so that they were one piece. This causes the internal moment to be transferred from one part of the landing gear to the other instead of the reaction coming from the frame itself.
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The front landing gear was also made thicker so that it could mount in 4 places at once which allow it to be more secure and support more weight.
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The front landing gear also has a safety factor of 3.15 when a total of 50 newtons are applied to the piece. The highest stress is at the outer points where the bolts connect to the frame of the plane.
The rear landing gear was changed so the wheel is in line with the mounting holes which will allow for better balance of the plane and also prevent the plane from turning to one side due to more friction on one side compared to the other.
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Author: Ben Lovegrove 2024/10/03
Revised Design 2
This new design features a steerable landing gear. For this a new file was created so the original landing gear is still available in PDM. The design removes the tab from the stationary design that held the wheel and extends the bottom plate so that the wheel attachment can be easily mounted.
The new attachment goes over both sides of the wheel so that the wheel is equally supported. There is a single hole in both the support and attachment where a servo will go to allow the landing gear to be moved so that the plane is steerable.
Author: Ben Lovegrove 2024/10/10
Revised Design and Sims
The front landing gear had cutouts applied so that the weight of the part can be reduced.
Objective of Sim
The goal of the sim is to ensure that the cutout holes do not reduce the integrity of the part enough so that it would fail on landing.
Simulation Setup
Assumptions and Preliminary Calculations
Assuming that Eclipse is 5kg
Fg = 5(9.81)
= 49.05
Applying a safety factor of 3, 150 newtons was applied to the part
Used Aluminum Alloy
Applied Loads
Load was applied to both axle holes
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Fixtures
The mounting holes are the fixture for the test.
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Mesh
Trial # | Mesh Parameters | Screenshot |
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1 | Element size: 2mm # of nodes: 38634 |
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2 | Element size: 1mm # of nodes: 115345 |
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3 | Element size: # of nodes: |
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Results
Trial # | Maximum Stress (MPa) | Min Safety Factor | Screenshot |
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1 | 138.17 | 1.72 |
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2 | 154.83 | 1.3402 |
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3 |
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Could also include minimum safety factor.
Conclusion
The landing gear will be able to survive landing
Author: Ben Lovegrove 10/11/2024
Sims for Front Landing Gear with Triangle Holes
Simulation Setup
Assumptions and Preliminary Calculations
Assuming that Eclipse is 5kg
Fg = 5(9.81)
= 49.05
Applying a safety factor of 3, 150 newtons was applied to the part
Used Aluminum Alloy
Applied Loads
Load was applied to both axle holes
Fixtures
The mounting holes are the fixture for the test.
Mesh
Trial # | Mesh Parameters | Screenshot |
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1 | Element size: 2mm # of nodes: 24269 |
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2 | Element Size 1mm Nodes: 93681 |
Results
Trial # | Maximum Stress (MPa) | Min Safety Factor | Screenshot |
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1 | 111.83 | 2.50 | |
2 | 144 | 1.9 |
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Conclusion
The landing gear will be able to survive landing
Author: Ben Lovegrove Date: 10/11/2024
Validation of Servo
Assuming that Eclipse is 5kg
Fg = 5(9.81)
= 49.05
Distance of rear landing gear to front landing gear = 676
Distance of front landing gear to CoM = 176
Moment = .176(49.05) - FN (.676)
0 = .176(49.05) - FN(.676)
FN(.676) = .176(49.05)
FN = 12.77N
Assuming coefficient of friction between concrete and foam is 1.8 (twice that of sliding friction, professor said that it would be higher than sliding friction)
radius = .037
Mass Moment of Inertia (xx direction) = 0.038527
alpha = angular velocity, assuming 1radian/sec
Torque = 1.8FN x r + I x alpha
= 0.889 Nm
Servo is 0.297Nm
So we need to select a new servo
Author Ben Lovegrove
Rear Landing Gear
Objective of Simulation
Validate the rear landing gear.
Assumptions and Preliminary Calculations
Assuming that Eclipse is 5kg
Fg = 5(9.81)
= 49.05
Distance of rear landing gear to front landing gear = 676
Distance of front landing gear to CoM = 176
Moment = .176(49.05) - FN (.676)
0 = .176(49.05) - FN(.676)
FN(.676) = .176(49.05)
FN = 12.77N
Using Aluminum Alloy
Applied Loads
Load was applied to the far servo holes
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Fixtures
The mounting holes are the fixture for the test.
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Mesh
Trial | Mesh Parameters | Screen Shot |
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1 | Element Size 1mm Nodes 29744 | |
2 | Element Size .5mm Nodes 125884 |
Results
Trial | Max Stress | Min Safety Factor | Screenshot |
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1 | 97.386 | 2.5671 | |
2 | 110.77MPa | 2.2569 |
Author: Smile Khatri 2024/11/13
Awesome work so far, super happy to see the engineering work you’ve put into the landing gear! Some next steps:
Where are we getting the servo attachment disk from? Do you have a specific part #?
Can you look into which servo we should order?
Other than that, the rest looks good. Best way to find out if it works is by making it and testing it!
Author: Ben Lovegrove 2024/11/16
Here’s the part I found for the attachment, it’s on amazon
The new servo I think we should use is the ds3235, it has twice the torque we need and we have it in the bay.
Servo there’s a link to the specs of the part.