OP
OP
With all due respect to him, because he does have some great advice...I would not follow his advice on tank assembly, at least not the version where he welds seams while they are vertical using capillary action and tape. This method 10,000%, without a doubt, proven over and over again, produces weaker joints compared to the pins & shims method. There is absolutely zero question about this. It's physically impossible to make a vertical seam capillary weld stronger than a pins-method weld.
Also, James @acrylics reportedly took him out to the woodshed one time over his method/advice a while back. I don't recall reading the discussion but I hear it was epic. Yet, he did not change his advice. I have seen videos of him using the pins method, but I've seen others who say they learned everything from him, and they are building 180g+ tanks using that method. To me, that is absolutely absurd.
I'd have to search to find the post you're referring to.
Here's a simple guideline, thanks to @acrylics (and I hope you don't mind me sharing this)
Eurobrace: Start with 3" one-piece perimeter eurobrace on any tank
Inside corners: minimum 1.5" radius (3" diameter circle) on all cutouts
Material Thickness*:
24" high, use 1/2" minimum
30" high, use 3/4" minimum
36" high, use 1" minimum
* Note: these are imperial thicknesses, i.e. 1/2" = 0.500" versus the "metric equivalent" which is 1/2" = 0.472"
Crossbraces: 6" wide crossbrace every 24" of tank length.
- So a 48 x 24" will have 3" perimeter eurobrace and a 6" crossbrace.
- If the same tank were 72" long - just one more crossbrace.
- At 8' length, I recommend jumping up one material thickness to keep deflection down.
Eurobrace tweaks:
There are times when someone's lighting scheme doesn't match the above formula. i.e. if someone wants an 8' tank but only 3 cutouts in the top. In such cases, increase the eurobrace width to 4.5" and increasing the width of the crossbraces to 8".
If someone doesn't want the crossbrace - they simply have to make the material thicker, and/or increase the width of eurobrace to maintain rigidity.
So with that being said:
That's 11mm acrylic, the metric-equivalent of 1/2" is 0.472 or 12mm. However, for a 16" tall tank, 11mm would probably be OK. 12mm would be better. It's not a matter of will it be strong enough, it's a matter of how much it will bow. 3/4" will bow less, which means less chance of a cleaner magnet/pad not making contact, requiring more passes to remove any algae, meaning more propensity to scratch.
If your ODs are 72 L x 16 H x 20 D and your thickness is exactly 0.500" (for simplicity, and for the math below) then your finished panel sizes would be (assuming you are adding overage for fillet and flush cut):
72.25" L x 15" H front and back
15" H x 19" D left and right
72.25" L x 20.25" D top and bottom
For example, the vertical 16" is the 15" panel + the two 1/2" panels bonded on top/bottom = 20"
Note: "finished" means after any squaring and edge prep via a router = pieces all ready for assembly, not the rough-cut dims.
Also note: if you use 0.472" then you have to factor that in for the front/back/left/right dims if you want the tank to come out exactly 72x16x20. If you don't, and you cut to the dims above, your actual tank will be 72 x 15.944 x 19.944. So in other words, if you're super duper uber picky, account for that difference.
