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- CADed a chassis for the payload
- 7.5in Cube
- 2 layers split by a divider plate
- Balloon's 4 point harness attached to base plate, no top plate. Initially planned on mounting to a roof fixture, but changed to floor fixture because: a) it'd be redundant to have both a roof for the chassis and a roof of foam, and b) it'd make it hard to move things around and physically insert things.
- Improvements to be made
- Fix up timing next time and make sure to properly train everyone in CADing so a last minute grind doesn't need to be done again, and so that we have time to test, and play around with the physical model prior to launch
- Get a better visual idea of how to budget space (i.e. allocating better clearance)
- Account for battery drain during setup
- Determine head of heat emitted of active components
- Important Factors
- Dedicating enough space and surface area for all components. This determined the size of the cube and how many layers
- The size of the biggest components, including the spectrometer and the muon detector; primary determiners in layout and setup
- Weight - comply with regulations, minimize the size of spectrometer as it was being designed and built. We considered changing the
- Weight distribution - minimize spin as HAB ascended
- Screw embedment length - impacted our decision for wall thickness
- Thermodynamic regulation - foam was used to insulate the payload from high altitude temperatures. We concluded thermal emission from batteries weren't a problem.
- NOTE for later -
- Sensor Accessibility - some components needed to have access to the outside. The Go-Pro
- Other Ideas
- Solid wall box
- 3 Layers
- Cut Foam for temperature insulation
- Everything was measured precisely and cut out in accordance
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