Re: So it begins.. Pics+Questions
Someone has to be the guinea pig right?
I used to work for this shower/toilet partition company so have worked with the material before, i have made many outdoor kitchens using the product and some have been in the elements for 5years..
as for load bearing horizontally.. Someone has to be the guinea pig right?
I have faith in it.. time will tell.
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So it begins.. Pics+Questions
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Re: So it begins.. Pics+Questions
It sounds like a version of formica, yes dmun?
OK, so yikes. Is this product intended to be load bearing in a horizontal application? I suspect not if it's normally used vertically. What about outdoor use? Just because it doesn't move now doesn't mean it isn't going to do weird things over the course of a few decades exposed to the elements, vs concrete or steel that you know you can depend on.
I think its a REALLY bad idea. Like CRAZY BAD.
good luck.
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Re: So it begins.. Pics+Questions
Sorry for the confusion.
Compact laminate is what is used in toilet/shower partitions in public toilets.. not sure if its used outside Australia..
Its basically thermosetting resins with cellulous fibers made under huge pressure to make it waterproof/scratch/dent and basically anything proof
i have pics ill upload tomorrow to show the material..
Have cut it all out and tested with 4 poeple standing between the supports, no movement at all.. ill be doing another layer just to be sure.
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Re: So it begins.. Pics+Questions
i will line the bottom with compact laminate
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Re: So it begins.. Pics+Questions
Problem solvered, i will line the bottom with compact laminate.. (13mm LCL) and then do my 100mm vermiculite form.
It will be 2 sheets so it will be 26mm of compact laminate. this should be more than ample to hold it all.
Not sure why i didnt think of this before!
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Re: So it begins.. Pics+Questions
I was thinking moreso a steel plate.. but the reason for still doing a cement layer is so i can have a benchtop on it.. or am i just adding weight for no reason at all.
hmm decisions decisions..
Originally posted by splatgirl View PostIn this case, when you say "sheet metal" to me that means steel plate, aka something thick/rigid enough to do the job on it's own, no concrete needed. Pulling a guess out of my hat, I'd use 1/4" thickness or more. Measured by gauge, that would be about a 2.
But if by sheet metal, you mean something flexible or bendable (anywhere from about 14 gauge and higher), then you'll need the concrete, yes. In this case, the sheet metal is mostly just a pan to contain the concrete during the pour and contributes very little to the structural integrity. You could substitute a removable plywood form and achieve close to the same thing. But again, I am not in agreement with the idea of only a 50mm reinforced slab. Everything I've ever done with reinforced concrete and steel that is structural and load bearing has been 4"/100mm of material.
I would do either a 4" reinforced slab OR steel plate as the base. To do a little of both seems like twice the work to achieve a lesser result.
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Re: So it begins.. Pics+Questions
In this case, when you say "sheet metal" to me that means steel plate, aka something thick/rigid enough to do the job on it's own, no concrete needed. Pulling a guess out of my hat, I'd use 1/4" thickness or more. Measured by gauge, that would be about a 2.
But if by sheet metal, you mean something flexible or bendable (anywhere from about 14 gauge and higher), then you'll need the concrete, yes. In this case, the sheet metal is mostly just a pan to contain the concrete during the pour and contributes very little to the structural integrity. You could substitute a removable plywood form and achieve close to the same thing. But again, I am not in agreement with the idea of only a 50mm reinforced slab. Everything I've ever done with reinforced concrete and steel that is structural and load bearing has been 4"/100mm of material.
I would do either a 4" reinforced slab OR steel plate as the base. To do a little of both seems like twice the work to achieve a lesser result.
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Re: So it begins.. Pics+Questions
Thankyou so much for the help.. guess its back to the drawing board.
What i might do then is metal sheet at the bottom of the 50/50 angle iron with a 50mm concrete reinforced slab.
Once thats completed i will make a 100mm Form of vermicrete ontop of the slab.
Can you confirm this would work... considering i dont really have any other options..
again.. your help has been amazing.. very much appreciated.
Originally posted by splatgirl View Postit seems like you are confusing the structural and insulation aspects--
The vermicrete layer is for insulation only. It has ZERO structural value. To have your oven work and retain heat properly, the vermicrete layer needs to be 4"/~100mm (unless you are using board insulation, in which case you don't need the vermicrete at all.)
As far as what holds that and everything else up, as long as it is utterly stable and can support the weight of your oven and whatever facade finishing you intend to do, concrete or steel sheet are both viable options.
IME, 25mm/1" of reinforced concrete would not ever be considered structural nor capable of load bearing (besides being difficult to impossible to fully embed the rebar and mesh in such a thin slab) To be such, it should be 4" thickness and reinforced with rebar and wire mesh. I guess it's possible your base was designed to allow for a thinner slab...run it by your structural engineer.
If you go with steel sheet, that would be taking the place of your reinforced concrete slab. From that point on, you would follow the pompeii plans to spec.
If you are going to go with a reinforced concrete slab instead of the steel sheet, you'd construct that according to the pompeii plans (or per your engineer) and then proceed as above with the vermiculite layer.
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Re: So it begins.. Pics+Questions
Any thoughts on the vermiculite?
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Re: So it begins.. Pics+Questions
it seems like you are confusing the structural and insulation aspects--
The vermicrete layer is for insulation only. It has ZERO structural value. To have your oven work and retain heat properly, the vermicrete layer needs to be 4"/~100mm (unless you are using board insulation, in which case you don't need the vermicrete at all.)
As far as what holds that and everything else up, as long as it is utterly stable and can support the weight of your oven and whatever facade finishing you intend to do, concrete or steel sheet are both viable options.
IME, 25mm/1" of reinforced concrete would not ever be considered structural nor capable of load bearing (besides being difficult to impossible to fully embed the rebar and mesh in such a thin slab) To be such, it should be 4" thickness and reinforced with rebar and wire mesh. I guess it's possible your base was designed to allow for a thinner slab...run it by your structural engineer.
If you go with steel sheet, that would be taking the place of your reinforced concrete slab. From that point on, you would follow the pompeii plans to spec.
If you are going to go with a reinforced concrete slab instead of the steel sheet, you'd construct that according to the pompeii plans (or per your engineer) and then proceed as above with the vermiculite layer.
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Re: So it begins.. Pics+Questions
No idea on the fencing metal to be honest, all we call it is colourbond. COLORBOND? steel: Home
The base was designed to handle over 1000kg so im presuming this should be ok, it was designed by a structural engineer and welded by our lead fabricator (25years experience). So im hoping this would be ok..
Option 1.. really strong metal sheet with a 50mm vermicrete mix.. vermiculite is only $20 per 100L so this is a cheap option.
My option 2 is to do 25mm concrete reinforced with 50x50 rebar.. and then do 25mm vermicrete.. is this enough?
Option 3.. 50mm reinforced concrete with a form ontop made with vermicrete..
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Re: So it begins.. Pics+Questions
Now that I look at your photo again, I would DEFINITELY Add some joists sections that run perpendicular to what you've got. And I'd like to see the overall structure braced in the other direction, too. You've got the lateral covered with those diagonals, but that's only half the cube.
All of that said, I'm not a structural engineer so I'm just going with my gut, here.
p.s. Is your fence made of corten steel?
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Re: So it begins.. Pics+Questions
I think I used the medium.
There's no reason you need to fill the entire base pan with vermicrete. It only needs to be UNDER your hearth/oven bricks. It would save you some mix and effort if you formed off an area just slightly larger than your oven footprint rather than the whole perimeter of the stand.
Putting rebar in the vermicrete isn't going to do anything except add weight.
I can't tell from your photo, but it looks like you just have "joists" in place to support the metal sheet of your base? I would add some perpendicular bracing, myself. Can't get that part too sturdy.
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Re: So it begins.. Pics+Questions
Thanks Dmun,
Any thoughts on the vermiculite?
Cheers
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Re: So it begins.. Pics+Questions
Insulating concrete has no tensile strength, no reinforcement is of any use. It has to be completely supported from the bottom.
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