A few results to share ... it went in like this
but the press gave it a bit of a shake - it's interesting to see what can happen. I've seen that some custom builders hot glue CF tape into place.
I switched them from the bottom to the top and reduced the amount of VDS, it just covers the edge
Cut back on the amount of epoxy bushed on to the base on the second and third ski - I may be imagining it, but it had a tendency push the edge away from the base. If the effect exists, it's a marginal effect, but worth considering. Got me thinking about how I've applied superglue to the edge, I'd been spotting 1 every 7. That's fine, but instead of putting the glue under the edge, I should clamp and then apply a spot. I don't want the edge held on with glue ... I guess I'm going to have a few issues to deal with when I test ride them.
I've not put on a top sheet and have used a clear base so I can what problems I need to fix. I've made one set at 12mm, the second at 11.5 - the same amount of carbon and kevlar, with parallel placement variation.
The carbon fibre is still a little wavy - I think this is a general issue when dealing with CF tows as the kelvar tape minimised the issue; not for the reason for the tape. I might route a channel ... but I'm not crazy about that idea, on reflection I don't think its right. I just wanted to get on and get something out to see if I could complete the process and then refine the design and process next time round. Have been a bit too pushy, but that's ok, as I've got the next step of the process and it looks like a ski. Carbon tows are cheap but I'm hoping my approach will give a good feel for what material does what within a ski.
I'll cut them out later this week - I've been routing the edge of the trial core with a carbide bit, but if anyone want to send me a few 'fine finishing tips' now is the time to do it
Just gotta say thanks to all the info provided by the site and in particular Happy Monkey Snowboards - I'll keep at it, but I've a long way to go!
Update
Out of the flash, used a large hack saw and did it by hand - runs well through the fibreglass. The jig saw was just too aggressive - personal pref. Pleased to see that the core did not move - so I need to reduce the impact of the dowel, thinking of using a guide rail glued to the sidewalls of the core. Tipspacers, no movement - teflon really works. I'm going to re-work the top of the mold when I have time, I want the cat-track to roll out from the centre to the tip when the hose is pressurised. The medical tape tip rocks! I will router the edges in advance next time, not too close. Router is mounted on a wedge, as I have not been able to find the correct dovetail bit in my neck of the woods. I didn't like the step produced by the first router bit, you get a flat surface if the bearing and the blade are next to each other - no gap. Used belt sander to reveal the tips and edge from the flash, finished the tips by hand. Still getting a bit of feathering on the fibreglass - photos of layup showed the problem, me, wetting out it patchy because the warmed epoxy cools before spreading to all areas. Hmm same problem again. Funny because it looked ok - digital photo said no. Will buy a couple of the carbon heaters and a thin piece of plastic, say 1 mm to cover and pre-heat the materials to an even temp. To help with the delivery of the epoxy, I'm going to use a small paint tray - the roller type, and drill a number of holes across the top end away from the trough. This will ensure that the epoxy flows out across the fibreglass at a controlled rate. I won't heat the epoxy to much, as I am heating the materials, but I will have to speed up lay up!
Hmm what about a metal tray with holes in the right place?
