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Back to the rather large pile of carbon that still needs to go into this fin can. This fin can uses six layers of tip-to-tip 5.7oz carbon fiber 2x2 twill weave fabric, the twill helps a little in this case with conforming to the shape of the fins and fillets. Since there are six tip-to-tip layers, that means that there are six layers of carbon fabric that stretch from one fin around the tube and up to the next fin (from the tip of one fin to the tip of the next right). But don’t jump any guns, this means that each fin has not six but 12 layers of carbon, six on each side. We chose to have 2 layers that don’t reach all of the way to the tips of the fins, 2 more layers that were larger but didn’t quite reach the tips and only 2 layers that were truly tip-to-tip. This small, medium, large carbon layer configuration with offsets from the tip of 2”,1”, 0 respectively were chosen because this gives the fins a smoother contour for better aerodynamics and a smoother layup at the cost of some strength. If you are trying to model the strength of the tip-to-tip...good luck, it’s pretty challenging since no fin modelling programs I know take tip-to-tip as an input, and I’m not about to do all of those tensor matrices myself, maybe some FEA wizard can do it. But I’m no wizard, I’m just a boy. A little trick I straight up stole from BDFDBF, thanks guys, is that when cutting shapes in dry fabric it usually helps to spray glue them to a sheet of wax paper. Make it pretty light, like stickiness of a fruit sticker. This is really useful when you have to store them because it keeps them from warping. For this fin can to be extra fancy, we cut the desired shapes for all of the layers with a laser cutter. This is super useful because the layers will be cut faster and more accurately. Also don’t listen to the skeptical MechEs who have a monopoly on the laser cutters, most laser cutters can cut CF no problem, use high power low speed, but it MUST be dry, you cannot laser cut any composites with epoxy cured or uncured. If you notice there are flappy little tabs on the top and bottom of the tip-to-tip sheets and that’s to ensure a smoother transition and a little extra strength. If you really want your fin can to be smooth then you should dremel/sand out the regions where the flaps overlap before the layup. Before we slapping epoxy around remember to mark a centerline halfway between each fin and on at least the first round of tip-to-tip sheets. You know I said a while ago we were ready for the layup, this is where you actually do that part. Squeegees and rollers are your friends. We laminated the sheets on a table to control the epoxy better. Be really careful taking the fabric off of the wax paper so you don’t warp it and in general because warped fabric is sad and will make you sad also. Also I wasn’t kidding with the time frame on this layup, having a team of at least 3 or 4 with people who are practiced with this kind of layup will help a lot. Vacuuming this bad boy can be a struggle, we bagged from the inside and outside using a vacc bag cylinder in the middle and a kind of cross-shaped assembly of bag for the outside. Protip: always leave plenty of extra margin on the vacc bag sizing. Gave it some good suction, threw it in an oven, and out popped our neato fin can. Time to find yourself some good sandpaper and good music...a lot of good music. Since our fin can is expected to go kinda fast, we will get some heating especially around the edges. We lined the edges with hi-temp epoxy to help mitigate that, yes it’s not the ideal TPS but I can only do so much. A little more sandpaper, maybe a nice paint job, and look at that a nifty fin can ready for some rootin tootin rocket shootin. Shoutout to the VP for the crazy amount of sanding at the end which I did absolutely none of since I fled the country when we got to the sanding stage of the year.
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