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Sheila Afros

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  • https://explorecomposites.com/articles/tooling/using-mdf-for-composites-tooling/

  • Process:

    • CAD model is created and validated

    • Sponsor search begins

    • MDF block to be machined is glued together (epoxy) to prep for machining

    • Assuming sponsor has been found, deliver the blank to the sponsor

    • After machining is complete, return the MDF mold from the sponsor

    • Surface prepping begins:

      • Sanding the general surface to get it smooth enough for panel lay-up

      • Fill any holes using surface filler

      • Repeat sanding and priming process until a smooth surface is achieved

    • Apply mold release

  • Pros:

    • Heat resistant in the off chance prepreg or thermoforming is used

    • Previous knowledge from MSXIV

  • Cons:

    • Have to go through the process of finding a sponsor to do the machining for us

    • Heavy molds, typically require more than one person to move or a lift

    • Messy machining, leaves large chunks of MDF around after initial machining

    • Surface finishing requires more effort than that of a foam surface; sanding eats away at foam much faster

    • Higher cost than that of foam where a 4' x 8' x 5/8” sheet comes in at $66.91 (https://www.homedepot.ca/product/hdg-premium-5-8-inch-x-49-inch-x-97-inch-mdf/1000167403)

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  • Process:

    • CAD model is created and validated

    • Email the CAD file to Brian, the machinist

    • Foam blank to be machined is glued together (epoxy) to prep for machining

    • Block is machined in house

    • Surface prepping begins:

      • Coat the mold in a thin layer of epoxy resin (plaster and putty can also be used)

      • Sand the general surface to get it smooth enough for panel lay-up

      • Fill any holes using surface filler

      • Repeat sanding and priming process until a smooth surface is achieved

    • Apply epoxy coat on the final surface to prevent any resin placed later from seeping through the pores of the foam during layup

    • apply mold release (PVA and wax work well)

  • Pros:

    • Brian, the machinist, is willing to machine any of the MSXV molds in house so long as they’re made of foam (2 day downtime compared to looking for a sponsor to get a single mold machined)

    • Lightweight molds, can be easily carried by one or two people (even the larger scale molds)

    • Sanding surface is much faster than that of MDF (although can be a downfall of the foam if not careful)

    • Lower cost than that of MDF where a 4' x 8' x 1” sheet comes in at $43.50 (https://www.homedepot.ca/product/owens-corning-foamular-codebord-xps-insulation-48-inch-x-96-inch-x-1-inch-ship-lap-edge/1000155125)

    • Does not tear off in chunks during machining, and if it did, expanding foam can be used to re-fill that removed section? (assumption)

  • Cons:

    • may be leaky (need to treat with chemicals in order to be able to tacky tape to the mold itself)

    • Rather porous and will need epoxy to prevent any resin during a layup from seeping through

...

  • Requires a foam plug

    • Creating the plug entails the same process as a full foam mold, so going straight to the foam mold might be time efficient.

  • Ways to make the foam mold include:

  • Adding fiber glass onto the foam molds might be a good way to improve the surface finish and make the mold less leaky (plus we have a lot of fiberglass).

  • Pros:

    • potentially less sanding (less time maybe)

    • mold is reusable

    • better surface finish than just a foam plug

  • Cons:

    • more material

    • more expensive

    • will still require sanding the foam

    • more time (maybe)

Additional resources:

Foam Molds