Yes, silicon oxide based. SiO2

I wonder if it’s possible to trigger the binding process at temps less than 800C? In the information it states “around 800C”.

Thanks for the info David. When my ovens finished I’ll do and experiment and bake a few bricks at around 600C to see how the binding is after.

“I wonder if it’s possible to trigger the binding process at temps less than 800C?”
Sintering begins at 573C when the body becomes permanent due to temperature. As the temperature gets higher the body becomes harder and stronger. Stoneware (1200-1300 C) much harder than earthenware (600-1200 C), porcelain (1300C+) harder than stoneware. Unfortunately the 500-650C range can be quite damaging because different materials have different expansion rates which leads to damage unless ramped up slowly and controlled. This is something not possible with a wood fired oven because of the chamber design and the fuel used, so it’s highly likely to result in damage if attempted. The castable refractory proves quite adequate for WFO service temperatures.
Additionally if sand is used as the mortar’s aggregate rather than crushed fired clay (grog), it has a tendency to turn to glass at higher temperatures, particularly in the presence of fluxes.

Custom Keystone Sun

My ring of wedges set nicely overnight, so after watching the AFL (Australian Football League) grand final, I made the most of no rain and cut the bricks I cemented together to get myself a piece of brick to make the keystone insert for the wedge ring.

I marked the top and bottom of the cemented brick from the templates I made overnight to match the top and bottom of the hole.

Another perfect use for mr Chipsters jig. Set the angle for the side cuts, then in 5 minutes the piece was ready. I made a few small adjustments with the 125mm grinder, and it fitted really well.

I took the wedge ring to test the fit in the top of the oven dome, and it needed some brick removed from the outside. I used the wet cutting saw to make cut the majority, then used the grinder to take out the rest. The ring held together.

I cemented the keystone into the wedge ring, leaving a small handle on top to make it easier to drop into the oven dome hole. It turned out like a sun, with the wedge pieces around the circle, I’m sufficiently happy with it that I decided not to cut the keystone from my above listed option 2. Will fit it in a few hours, weather permitting.

I know many build the Tuscan style dome. My recommendation, if you have any claustrophobic tendencies, then it would be preferable over the Neapolitan style dome. I set up a plank from the front of my ladder to the oven opening, laid on my back, then crept backwards with one arm over my head so i could fit in. I’m not claustrophobic and it had me on edge. I wanted to check the inside of the dome, and fill any small gaps with cement while there is still light from the small hole in the top of the dome. I got used to it after bing in there a little while, but it’s definitely not fun.

Some pics of the evolution of the custom keystone.

Keystone in and dome done; Vent fitted

Keystone in.
After letting the keystone set for a few hours, I crawled down the plank on my back into the oven dome. Really not fun! Our son and a friend of his helped by inserting the keystone and fitting it. I got shoulder cramp half way through, unable to easily get out, and without space to stretch, it was really a test of my endurance of pain. I breathed through and got the keystone in, although 1mm lower on one side, acceptable for me. I left the handle on top of the keystone, not that I will use it now, but it was handy to hold on to, to fit it. I might just see if I can’t repurpose it into a decorative flower, that no one will ever see when it buried under the insulation. But I will know it is there. I have a little bit of cement stuck in the inside of the roof, which is annoying me, So I might venture in once more with a chisel to chip it out, so it looks nice.



Fitted the vent cast.
I’m so happy the dome is finally done. I moved to thinking about starting the chimney, and asked my son’s friend for help to fit the vent cast I made. I would like to give credit to david s . It was his generous sharing of knowledge and experience, and support that inspired me to cast the vent in refractory concrete. The arch vent is rectangular, and transitions through the refractory concrete vent to 200mm diameter circular vent at the top on which I have mounted a schamotte adapter plate for 2 x 200mm schamott flue pipes. The transition from the rectangular vent in the arch to the circular vent to accomodate the 200mm flue is the same area so it doesn’t impede the smoke flow up the flue. Also curved walls in the refractory concrete vent so to allow smooth flow upwards.

It sounds a lot, but with Davids input I made it happen as the last think I want is smoke flowing out the front of the arch. I was admiring it once it was fitted. Thank you David. I’m so glad you gave me the tip and support by patiently answering my many questions.

Removed Indispensable Tool; refitted the center floor brick; fitted Schamott flue to vent.

It’s Sunday, there is a law in Germany against working on Sunday apparently, or so my wife always tells me. She was away this weekend so I forgot about that and reverted to my Australian conditioning.

I cleaned out the floor of the oven with a vaccum. Lots of dregs around the IT well in the middle of the floor which I didn‘t want to fall into the brick space when I removed it. Had my fingers crossed that the minimal sand I put in there when I levelled the floor was still in place, and if I could avoid stuff falling in when removing the IT, then the block should theoretically slip back in to place nice and level. The theory was good. The block dropped in with a flew little taps of the rubber hammer. Perfect level.

I chipped a little of the surplus cement spots away from the inside of the dome. Still needs a good clean, as my dirty rag left dirty water marks. I read someone used a vinegar and water mix to clean their oven. Does that really work? I have seen it used on external walls. Don‘t want to do any damage to the cement on the dome though.



I cemented the Schamott flue pipes on the vent, that was easy. Then I enjoyed the rest of the day off, apart from doing some calculations in sketchup on the chimney brickwork I want to start this week.

Vinegar and water mix is pretty benign and works best on efflorescence vs mortar. IMHO, give it a try, nothing to lose. I used muratic acid and water on the exterior of my oven to remove the efflorescence but it is definitely more aggressive and PPE is need.

I found vinegar and a wire brush moderately helpful for small amounts of relatively fresh mortar and very helpful for efflorescence. Mind you, I was using the homebrew Portland cement-based mortar, not the calcium aluminate-based stuff you have, so your mileage may vary there.

I was pretty disciplined when doing the dome, after each row I washed down and cleaned the bricks because I found out early the cement set like stone. What I have is some dirty water stains. I tested today with 50/50 vinegar water mix and it does the job, makes it easy to remove it with a wet rag. But to be honest, the inside of the dome is clean enough for me. The photos I posted the last days were deceiving, because the dark part inside the dome is where it was wet from me cleaning it. Today it had dried out more and the dark patch is not there.

As if its not already cramped fitting through the arch into the low dome, I sprayed some vinegar in there today and if I was going to do it I would need to wear a mask. I‘m not doing that.

Nobody is going to look inside the top of the oven when it is 700F, they will be amazed how quickly and tasty the pizzas that come out are. Plus the dome is going to soot up every time you fire until it clears off (about 700F plus and there is also a unique smell when the carbon starts to burn off, kind of like an ozone smell).

Brickwork of Chimney and front of oven.

I started work on the brickwork of the chimney, and the front of the oven this week. I‘m doing it in stages, using left oven cement paver/ wall bricks for the sides. I used the last of my schamott bricks to build up over the arch today. I don‘t want to build the rear wall on the back of the chimney directly on the dome, so I have 2 options to use either a steel lintel, or reinforced concrete lintel supported by the sides and crossing over the dome. I will leave space under it to properly insulate the dome. I‘m specifically trying to avoid loss of heat through conduction from the main thermal mass to the brickwork around the chimney. I‘ll be posting more photo‘s as I progress. The brickwork will be rendered, leaving only the main arch visible around the opening as a feature on the front of the oven.

Pressure/ Steam release valve unplanned alternative should work.

Times coming where I really need to have a solution sorted, and I have a couple of possibilities. 1. a Hydraulic release valve, and 2. Aeration cap. But…. I‘m wondering if I will actually need one, as I possibly can vent any steam or pressure build up through the chimney.

Let me explain.

To avoid adding extra thermal mass, the sides and front of the chimney are entirely bering built arch which is forward of the heat break. The goal is to reduce any heat loss via conduction. I have a Lintel that will run from side to side of the oven over the top of the dome and the rear wall of the chimney will be built on it. 100mm of Ceramic fibre blanket will go over the dome, and under the rear wall of the chimney. The vent with the Schamott flue that sit on the arch will be insulated in the space between them and the outer chimney wall.

Hope that paints a clear picture. Point is, any pressure or steam that is captured between the dome and the outer render will automatically release up the chimney and out the top. Is there any reason this would not work?

I read that david s has incorporated a custom vent release that uses the chimney, albeit he has planned for that. Mine was not planned, but I am wondering if it is worth adding a release valve in the top of the dome now?

As long as you feel comfortable that there is an egress point for water vapor to escape you should be good. Liquid water when it sublimates to gas increases volume by about 1500 times hence a need to have some type of mechanism to reduce pressure building up under the finish coat of the oven.

Thanks Russel. Being my first oven, its all new to me, and I‘m working through things like this as best I can.

Attached are some images I took after finishing my work on the oven today. I did my first course around the chimney, and set the lintel in place to support the bricks at the rear of the chimney wall. You can see under the lintel is where I will place the ceramic fibre blanket insulation down to the back of the vent. The vent and flue will also be covered with ceramic fibre blanket. I was going to fill the empty space around the flue in the chimney with vermiculite. The V-P-crete will cover the ceramic fibre on the dome up to the back of the chimney wall. It will create a seal, but as it is open under the lintel to the space between the chimney wall and flue, I guess I could add a copper pipe in there that would go from the ceramic fibre to the top of the chimney.

Are you going to fully enclose your oven with brick? If so you could consider dry filling the space between the dome and the outer brick wall with dry perlite or vermiculite (if you have not already bought your ceramic blanket). Both perlite (0.03) and vermiculite (0.065) K values are pretty good when comparing to ceramic blanket (0.06) and probably less expensive.

To relieve pressure build up the position of the vent can be placed anywher. However, this pressure build up can also be utilized to help assist the removal of moisture.
I'm convinced that efficient venting of dome insulation moisture (and under floor insulation moisture for that matter) is more efficient with the vents placed at the bottom of the oven for the following reasons.

1. Heat rises by convection, so the fire in the chamber heats the crown of the inner dome faster than any other part of the inner chamber.
2. Moisture travels away from any heat source.
3. Gravity makes water fall.

Pressure build up from steam or just expanding hot air forces moisture present to the outside of the insulation, away from the heat source, as well as down. Some of that moisture will condense against the inside of the cooler outer shell where it will run down or make its way to the base,
Having observed this process firing a new empty kiln, as recommended by the ,amufacturere, I was surprised to see water dripping from the front corner when the kiln's internal temperature reached around 400C ( 750F), which is way above the temperature water turns to steam.

I think the drawing explains the process. While a vent at the apex may seem the most logical, it is the build up of moisture lower down that is more problematic in creating a huge temperature differential and thereby thermal expansion issues. This problem is also evidenced by owners discovering the effidiency of venting the underfloor insulation.