CC Materials/Manufacturing/Assembly Detailed Design

[1] Acrylic
Yield Strength: 64.8 - 83.4 MPa (Average value: 75.4 MPa)
Young’s Modulus: 2.76 - 3.30 GPa

Flexural Modulus: 2.96 - 3.30 GPa
Flexural Yield Strength: 98.0 - 125 MPa (Average value: 109 MPa)

[2] PETG
Yield Strength: 28.3 - 58.6 MPa
Young’s Modulus: 1.10 - 20.3 GPa (Average value of 2.65 GPa)

Flexural Modulus: 1.17 - 2.76 GPa
Flexural Yield Strength: 39.2 - 88.9 MPa (Average value of 69.5 MPa)

In short, Plexiglas is a strong enough viable alternative for the side walls of the cover.

Gel-coat
Protective finishing layer for composite surfaces.
Leaves a hard smooth surface good for sticking on adhesive.
Requires sanding and buffing for a smooth surface.
If painting the cover, apply gel-coat first then paint over it.

Source:
[1] http://www.matweb.com/search/datasheet.aspx?bassnum=O1303
[2] http://www.matweb.com/search/datasheet.aspx?matguid=4de1c85bb946406a86c52b688e3810d0

Assuming quarter inch thickness of all fiberglass (no foam core).
This is to make calculations easier, results might be the same with a foam core or even better.

Fiberglass composite flexural strength- 350Mpa.
Fiberglass board of dimensions 0.7m x 0.5m x 0.00635m.
2 x 70kg humans acting as force.
3 point bend test.

Result stress is 72MPa using formula below.
Stress is less than yield strength.

Which means a quarter inch thickness is more than enough and could be thinner.
Note that results are theoretical, but results are no where close to yield strength.

Open

Deflection at load point (more math):

Open

Standard epoxy resin is a good choice for fiberglass.
Has heat resistance of up to 150C. Enough time for occupants to escape vehicle in a thermal runoff situation.

Resins in general melt polystyrene and styrofoam foams so they cannot be used.
Polyurethane foams are a good alternative.

Foam are bought in large thick sheets, they can be cut down into size using hot wire foam cutter.
Composites Canada carries urethane foam which is a good place to buy from.

Gasket for battery cover would be stamped out or cut out from a flat sheet of rubber to match the outline of where the cover would sit on the edges of the walls.
Neoprene is what is typically used for gaskets (synthetic rubber).

Gaskets could be manufactured by using die cutting, water-jet cutting, and laser-jet cutting.
Manufacturing could be potentially done in-house with a large enough laser cutter and a large sheet of rubber, or could potentially be made using a small blade slicing the rubber to the CADed shape.

For the seal to be effective, it should be one continuous piece that covers all openings and shall be compressed against the surface of the resting site and the cover so that small air gaps could be filled to prevent potential water from leaking.

Total surface area: 5.19m^2
Widest part of cover: 0.7112m
Total perimeter length: 549.18in
Required area of cloth: 23m^2 (2 layers each side plus 10% for headroom)

Would need to order 26 yards
Priced at $11.55 per yard
Approx price: $300 (before applicable taxes and discounts)
Link: https://shop.compositescanada.com/#/product/FJ09-7725-38-LY

Foam:
One sheet of foam cut into 4 thinner sheets covers 5.946m^2

Would need to order 1 sheet
Priced at $42.6 per sheet
Approx price: $42.60 (before applicable taxes and discounts)
Link: https://shop.compositescanada.com/#/product/U720-100-48

Resin:
Ratio by weight is 2.5:1 resin to fiberglass
Fiberglass is sold by weight per square yard
Total area 20.76m^2 or 24.83 yard squared
Total weight in cloth: 24.83*8.8oz = 218.504oz. Around 6.2kg
Would require 15.5kg (34.17lb) of mixed resin.