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[[File:Deriving_parts2.png|600px]]
[[File:Deriving_parts2.png|600px]]
You can now click on the star icons on the left side of each of the global parameters. After clicking the icons the global parameters will show in the favorites table and you will be able to reference them by name.
You can now click on the star icons on the left side of each of the global parameters. After clicking the icons the global parameters will show in the favorites table and you will be able to reference them by name.(Note: this is optional but recommended because it enables tab complete, otherwise you have type in the full name of the parameter)
[[File:Deriving_parts3.png|600px]]
[[File:Deriving_parts3.png|600px]]
# Anything we make needs to be easily manufacturable. Practically, this means we should try to keep our parts either 3D printed (almost any geometry will fly, but the materials won't be as strong) or simple to make from metal. For the latter, this practically means machined from stock with only operations like drilling/milling holes or other shapes which can be cut with a standard 3 axis mill. If what that means is unclear, feel free to ping Connor and check out parts of the primary structure.
# Anything we make needs to be easily manufacturable. Practically, this means we should try to keep our parts either 3D printed (almost any geometry will fly, but the materials won't be as strong) or simple to make from metal. For the latter, this practically means machined from stock with only operations like drilling/milling holes or other shapes which can be cut with a standard 3 axis mill. If what that means is unclear, feel free to ping Connor and check out parts of the primary structure.
#
# Our design should be flexible with regards to 'critical system parameters'. What does this mean? Let's say we start by designing the satellite with 1 millimeter thick metal. Life is great, but as the system becomes more complicated, more and more things start to depend on this value. Now we run a simulation or perform a test, and hey 1mm isn't strong enough. By defining global parameters which parts are derived from, it should be possible to modify this on the fly, and let the well designed parts accept a new parameter. Again, feel free to ask if it's unclear what exactly this means in practice.
# (On the pure technical front), we demand a safety factor of 5x from simulations running qualification-level inputs for the primary structure. This means that the stress in the metal is less than 1/5 of it's yield strength. Why such a big factor? Literally everything in this process is unpredictable, from material properties to manufacturing to modeling errors to the actual way forces couple from the launch vehicle. This ensures we will be completely safe. (Also, we are nowhere near our mass constraints, so no harm there).
# Deployment failures either are failsafed (two separate things would have to break for things to go wrong) or not mission-critical. We don't want to go through all the work to put this piece of metal in space just for a resistor to not get hot enough to melt our fishing line.
# The system is accessable/assembleable. Theoretically, what this means is when designing keep in mind there will be connectors and bolts everywhere and to make sure they can be manipulated easily. Practically, this probably means we'll make a prototype, identify the biggest headaches and fix them.
[[Features]]
[[Features]]
# Primary structure machined with: 1mm lasercut aluminum for side panels, .040 inch (for sourcing reasons) thick aluminum angle for the rails, and lasercut 1/8 aluminum for z plates. The only thing which can't be done with simple lasercutting is drilling a few holes in the sides of the z plates.
# Many deployables. We have an extra set of solar panels on each side to increase power intake and hopefully therefore processing, a deployable patch antenna to increase downlink bandwidth, and a deployable dipole antenna.
# (to be designed) a set of magnetorques and reaction wheels to control satellite pointing.
# 3D printed clamping mounts for our massive camera lens.