Hi all,
I need to produce a part that looks almost exactly like an aircooled disc brake rotor. IE: a shaft mounted flat disc with fins supporting a disc shaped ring whose inner hole does not touch the center shaft. Approx 12" in diameter, approx .750 thick. This part will be highly loaded axially at the outer edge and I need minimal axial deflection, maximum stiffness. Mental picture describing the stresses on this would be to take an aircooled disc brake rotor, lay it in a hydraulic press supporting it above the table only on the outer diameter with the ram pushing down on the hub with approx 1,000 lbs of force. Considering making the part out of CF as light weight is a plus. Lower thermal conduction is desirable. Also seems it should be easier and cheaper to fabricate a prototype this way. Have heard of an "Aquagel" cavity filling material that sounds promising. I have very little experience with CF for this type of part, need advice on material and resin selection, resin impregnating methodology or whether pre-preg cloth is advisable. What are the best layup practices for maximum strength? I am currently thinking along the lines of laying down the full disc, positioning precast formers (aquagel?) then temporarily tacking on the "fins" or "ribs" then laying the "ring" on top of those. I am mostly worried about bonding the "fins/ribs" to both disc and ring. Ribs will be in compression and seems that the part will need to derive most of its stiffness from them. Could use any tips or advice you care to offer.
I need to produce a part that looks almost exactly like an aircooled disc brake rotor. IE: a shaft mounted flat disc with fins supporting a disc shaped ring whose inner hole does not touch the center shaft. Approx 12" in diameter, approx .750 thick. This part will be highly loaded axially at the outer edge and I need minimal axial deflection, maximum stiffness. Mental picture describing the stresses on this would be to take an aircooled disc brake rotor, lay it in a hydraulic press supporting it above the table only on the outer diameter with the ram pushing down on the hub with approx 1,000 lbs of force. Considering making the part out of CF as light weight is a plus. Lower thermal conduction is desirable. Also seems it should be easier and cheaper to fabricate a prototype this way. Have heard of an "Aquagel" cavity filling material that sounds promising. I have very little experience with CF for this type of part, need advice on material and resin selection, resin impregnating methodology or whether pre-preg cloth is advisable. What are the best layup practices for maximum strength? I am currently thinking along the lines of laying down the full disc, positioning precast formers (aquagel?) then temporarily tacking on the "fins" or "ribs" then laying the "ring" on top of those. I am mostly worried about bonding the "fins/ribs" to both disc and ring. Ribs will be in compression and seems that the part will need to derive most of its stiffness from them. Could use any tips or advice you care to offer.