Tweet
Hi all
I had been oscillating for a while, and recently decided to make my first WFO. This is my first attempt at building anything by hand (not limited to masonry), so it has been quite a slow process.
Like many others, I had always wanted it to be as light as possible - and was prompted by the promises of the lightweight vermiculite ovens that gained a lot of traction on YouTube. However, somewhere along the time, I lucked open this forum, and have taken the time to read into what is required to build a more effective and quality WFO, and to try to minimise the number of beginner mistakes I make. However, I am at the point where I wanted to sense check with brighter minds than mine that my proposed plan may actually work, and I am not headed towards certain failure.
For background, what I am looking to build is admittedly still not an ‘ideal’ build, as I need something that is light enough to be movable (currently living in the CBD in a rental), but still retaining as many beneficial characteristics of a properly designed WFO (vis-à-vis a Youtube perlcrete oven) as possible. Importantly, I want the oven to be moveable (occasionally); but it need not be easily portable. Think moved once or twice between rentals over the course of a couple of years - without the use of a forklift.
So far, I have built the dome. The dome is a very small, raised ~19” internal diameter made from refractory castable. In essence, I used the gym ball method, but instead of casting around the ball from its widest point, I placed the ball higher (so the mid-point was above the ‘base’ level), created a straight form down from the widest point of the gym ball, and cast around that. Appreciate that explanation may be a bit poor, so see photo below for an idea of what I mean. The idea of this was that because my oven will be very small, having a raised bottom would mean more room for wood tighter in the corner without being blocked by the tight curvature at the edge of the dome.
After initially building the refractory castable element of the dome (approx. 1.5”-2” due to poor rendering/application by me), I let it set for a few days (a lazy ‘wet’ set, by spraying it a couple of times a day with a spray bottle), before doing a ~4 day slow ‘cure’ of the refractory castable dome only with small fires. My logic to this – rightly or wrongly – was to strengthen the refractory castable and get rid of any excess water before putting on the insulating layer(s), so that moisture didn't just seep into the ceramic blanket (and thus - in my mind - avoiding an even longer curing period). That said, I didn’t see any moisture come out of the outside of the dome during the curing. However, I noticed there were a couple of weak spots (and a couple of very small see-through holes, seemingly due to my refractory castable mix being too dry), so I filled these with a homebrew refractory mortar. At this point I could carry the dome by myself without too much difficulty, and would estimate (I did not weight it) it was between 50 and 60kg.
Earlier this week, I then put the isowool / ceramic blanket onto the outside of the dome, followed by the 10:1 perlcrete mix (more specifically, 5:5:1 perlite, vermiculite, Portland cement per a recommendation on this forum). I only had enough ceramic blanket for 1 coat (ie 1”) all over, but I had enough spare to put a second layer on the top third/half of the dome (ie 2”). There is then approximately 2” of 10:1 perlcrete on the outside of this (closer to 1” where I have put 2” of blanket). The perlcrete layer has now been setting for 5 days under a damp towel. I will continue this for at least 2 more days (although may do it for longer while the base cures if any material benefit to doing so).
I am now looking to build the base – and this is where my question arises. And apologies for the prolix background before this.
Set out below is what I am planning to do to ‘finish’ the build. In short (and the picture will likely describe it better than words), it involves putting the firebricks (only 1”, acknowledging this is probably not ideal) on top of ceramic board (again only 1”, acknowledging this is probably not ideal), on top of 2” of 5:1 perlcrete mix, on top of 2” of concrete with rebar. This 2” of rebarred concrete will be part of the hearth, which will be mortared to the dome. There will be no separate ‘base’ (suspended slab or otherwise), and it will likely just sit on-top of a table.
My current thinking with this build is that it will be ~150kg (complete guess!), so moveable by 2 or 3 people without a forklift. And, in a worst case scenario, I could try to cut through the mortar and separate the dome and base when it came time to move it.
Finally, the question(s): Do you think this will work? Do you think I am missing anything? Can you think of an alternative approach that would give me my desired approach (noting I have already built the dome)? Maybe a way where it is possible to have a separate dome and base (not mortared – although I assume the feet of the dome will not be perfectly flat, so this would result in a lot of heat escaping)? You can safely assume I know nothing.
I am conscious that this is not a perfect build by any means, and I accept that the results may not be perfect (and when I have purchased a home with a decent yard, I will likely try to build a more permanent fixture); however, I am keen to build as good a WFO as I can within the parameters I have. It (obviously) only needs to cook 1 pizza at a time, but it would be great if it could be used to cook other things with retained heat etc.
(please note that none of these images are to scale – or even shape… – as they were all drawn on MS Paint…) (Edit: photos look tiny - trying re-upload).
For completeness, I am looking to build the base effectively through a negative particleboard mould as follows (Edit: photos look tiny - trying re-upload; separate photos sorry):
I had been oscillating for a while, and recently decided to make my first WFO. This is my first attempt at building anything by hand (not limited to masonry), so it has been quite a slow process.
Like many others, I had always wanted it to be as light as possible - and was prompted by the promises of the lightweight vermiculite ovens that gained a lot of traction on YouTube. However, somewhere along the time, I lucked open this forum, and have taken the time to read into what is required to build a more effective and quality WFO, and to try to minimise the number of beginner mistakes I make. However, I am at the point where I wanted to sense check with brighter minds than mine that my proposed plan may actually work, and I am not headed towards certain failure.
For background, what I am looking to build is admittedly still not an ‘ideal’ build, as I need something that is light enough to be movable (currently living in the CBD in a rental), but still retaining as many beneficial characteristics of a properly designed WFO (vis-à-vis a Youtube perlcrete oven) as possible. Importantly, I want the oven to be moveable (occasionally); but it need not be easily portable. Think moved once or twice between rentals over the course of a couple of years - without the use of a forklift.
So far, I have built the dome. The dome is a very small, raised ~19” internal diameter made from refractory castable. In essence, I used the gym ball method, but instead of casting around the ball from its widest point, I placed the ball higher (so the mid-point was above the ‘base’ level), created a straight form down from the widest point of the gym ball, and cast around that. Appreciate that explanation may be a bit poor, so see photo below for an idea of what I mean. The idea of this was that because my oven will be very small, having a raised bottom would mean more room for wood tighter in the corner without being blocked by the tight curvature at the edge of the dome.
After initially building the refractory castable element of the dome (approx. 1.5”-2” due to poor rendering/application by me), I let it set for a few days (a lazy ‘wet’ set, by spraying it a couple of times a day with a spray bottle), before doing a ~4 day slow ‘cure’ of the refractory castable dome only with small fires. My logic to this – rightly or wrongly – was to strengthen the refractory castable and get rid of any excess water before putting on the insulating layer(s), so that moisture didn't just seep into the ceramic blanket (and thus - in my mind - avoiding an even longer curing period). That said, I didn’t see any moisture come out of the outside of the dome during the curing. However, I noticed there were a couple of weak spots (and a couple of very small see-through holes, seemingly due to my refractory castable mix being too dry), so I filled these with a homebrew refractory mortar. At this point I could carry the dome by myself without too much difficulty, and would estimate (I did not weight it) it was between 50 and 60kg.
Earlier this week, I then put the isowool / ceramic blanket onto the outside of the dome, followed by the 10:1 perlcrete mix (more specifically, 5:5:1 perlite, vermiculite, Portland cement per a recommendation on this forum). I only had enough ceramic blanket for 1 coat (ie 1”) all over, but I had enough spare to put a second layer on the top third/half of the dome (ie 2”). There is then approximately 2” of 10:1 perlcrete on the outside of this (closer to 1” where I have put 2” of blanket). The perlcrete layer has now been setting for 5 days under a damp towel. I will continue this for at least 2 more days (although may do it for longer while the base cures if any material benefit to doing so).
I am now looking to build the base – and this is where my question arises. And apologies for the prolix background before this.
Set out below is what I am planning to do to ‘finish’ the build. In short (and the picture will likely describe it better than words), it involves putting the firebricks (only 1”, acknowledging this is probably not ideal) on top of ceramic board (again only 1”, acknowledging this is probably not ideal), on top of 2” of 5:1 perlcrete mix, on top of 2” of concrete with rebar. This 2” of rebarred concrete will be part of the hearth, which will be mortared to the dome. There will be no separate ‘base’ (suspended slab or otherwise), and it will likely just sit on-top of a table.
My current thinking with this build is that it will be ~150kg (complete guess!), so moveable by 2 or 3 people without a forklift. And, in a worst case scenario, I could try to cut through the mortar and separate the dome and base when it came time to move it.
Finally, the question(s): Do you think this will work? Do you think I am missing anything? Can you think of an alternative approach that would give me my desired approach (noting I have already built the dome)? Maybe a way where it is possible to have a separate dome and base (not mortared – although I assume the feet of the dome will not be perfectly flat, so this would result in a lot of heat escaping)? You can safely assume I know nothing.
I am conscious that this is not a perfect build by any means, and I accept that the results may not be perfect (and when I have purchased a home with a decent yard, I will likely try to build a more permanent fixture); however, I am keen to build as good a WFO as I can within the parameters I have. It (obviously) only needs to cook 1 pizza at a time, but it would be great if it could be used to cook other things with retained heat etc.
(please note that none of these images are to scale – or even shape… – as they were all drawn on MS Paint…) (Edit: photos look tiny - trying re-upload).
For completeness, I am looking to build the base effectively through a negative particleboard mould as follows (Edit: photos look tiny - trying re-upload; separate photos sorry):
Attached Files
Comment