Charles the steel reinforcing is a good idea for lifting heavy castings , but unfortunately presents problems in conjunction with refractory. Because steel is many times more thermally conductive than the refractory that surrounds it, the resulting expansion on sudden heating creates stresses on the refractory. Additionally heat and moisture both accelerate corrosion. For these reasons the recommended reinforcing for refractory is melt extract fibres (stainless steel needles). This may be overkill for your build but it might be prudent to either skip the reo and lift the castings with straps or at least reduce the diameter of the reinforcing as much as you can. I'd say 1/4" should be adequate.

On pulling apart my mobile oven after many years of pretty hard service I noticed how expanding steel reo had cracked the casting surrounding it (see pic on linked post)
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David, I just saw your reply from yesterday. I didn't think about the difference in thermal expansion between the refractory and the rebar causing cracks! It definitely will. I only added the rebar to create a lifting point, not to add strength to the concrete. I was using 3/8" rebar. Do you think that 1/4" rebar will not cause cracking?

And would corrosion of the steel really be a problem? Ignoring the cracking and assuming that the refractory is strong enough by itself.

Yes I realised that the steel bar is only for lifting. Maybe the reduced size down to 1/4” will be sufficient for you to get away with it. Remember that all ovens will have some cracks. I’d imagine it’ll work, if still unsure use lifting straps.

I had mentioned the problem with "lift" when placing the cast dome around the perimeter. However, in our situation, the floor bricks were inside the dome perimeter with the insulation board extending a few inches further. When we placed the cast dome pieces on the insulation board perimeter, it lifted several of the cooking floor pieces out of level. In your case, you will be placing your cast dome pieces on pretty solid cooking floor bricks. I suspect the amount of contact you have along the perimeter for each section will keep the floor pieces level, so I don't believe you will have any problems just setting pieces in place.

I am a little concerned with how tight your fit is for the cooking floor. The floor pieces will expand slightly as they are heated and you do need to have a little room for the physical expansion. For most builds that lay the cooking bricks inside the dome, only a 1/4" gap or so around the inside perimeter is enough of an expansion gap. Often the gap is created by simply laying a piece of cardboard between the outer perimeter of the cooking floor bricks and the inside dome wall. In addition, you do want to have some insulation between those extended cooking bricks ends and the concrete. Remember you want to isolate the oven from "the outside world" with insulation. Any direct or near contact between your concrete base and heated oven bricks will diminish the ability of your oven to maintain its heat. I suspect the heat loss would be minimal...but at this point, I'd want to build the most efficient oven I could. Based on all the great work you've done, I suspect you will want to at least think about the consequences of that "tight fit".

I will pull up the bricks I've placed so far and make sure there is sufficient expansion gap. I think I will actually make a gap of about 1 inch, so I can put fiber board in between the floor and concrete. I do want this to be an efficient oven.

Thinking about placing the dome, should I mortar the dome to the floor bricks? Or should they sit on the floor?

Your dome sections should just be placed not mortared. Again the different expansions with heating/firing would possibly cause problems. If the sections simply sit on top, they can slide the little bit needed. I think giving yourself an inch of insulation around the perimeter is good.

Nice to accomplish something isnt it

The thermal expansion for the temperatures we fire to is around 1% or about 5 mm/m. You could double that if it were a kiln. So, the steel bracing just needs to be firm, hence the threaded adjustment. When the oven heats it becomes tighter.

CharlesPizzaiolo What width and thickness angle iron did you use? Is the front of it flush with the cinder block or does it stick out?

The conventional way of using lintel blocks/bond beams/knockouts which have a channel that can be filled with reo bar and concrete is neater, probably stronger and not subject to corrosion because the steel is not exposed.