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With a disposable brush, paint a layer of epoxy onto the surface of the mold.
Place the CF piece.
Paint a layer of resin on top of the CF piece.
Make sure to do shorter brush strokes + more to spread out the resin followed by stippling rather than long strokes. Long strokes increases the risk of disorganizing the individual CF strands getting . Sometimes, bristles might fall off and get caught in the brushresin when doing long strokes. The goal is to push resin into the CF and long stroke won’t help achieve this.
Squeegee out excess resin.
Repeat steps 2-4 per each layer.
After all the layers are done, place the peel ply fabric on top of the final layer.
Press the peel ply fabric to make sure that it absorbs excess resin from the final layer. A squeegee will help achieve this effect.
After the resin has cured, you can tear the peel ply off (it should come off pretty nicely). Use a scrapper or a blade to release the wet layup from the mold.
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General rule is weight of carbon fiber == weight of epoxy resin solution. Do not forget to tare (or subtract) the weight of the cup that holds the resin when measuring resin and hardener quantities.
Aeropoxy epoxy resin solution = 100 parts epoxy, 27 parts hardener (the ratio might differ depending on the hardener and resin used so make sure to read the container label).
Other notes:
Bends and complex curves have a higher chance Sharp bends have an increased risk of introducing air bubbles which will stop the epoxy from flowing because it is difficult to push resin into that particular area. This Air bubbles leads to small dents/holes/dry spots after the epoxy cures. Air bubbles are almost unavoidable because air particles will enter the resin when you are mixing it with the hardener. Hence, one must do a good job of squeegeeing and stippling to push out the air bubbles along with excess resin.
To minimize air bubbles you can:
de-gas your resin using a vacuum chamber
let the epoxy mixture sit for longer after mixing (but you will need a longer epoxy pot life)
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