Foundry Contstruction http://www.budgiemetalworks.ca/foundryconstruction.htm
Homemade Foundry - Construction
My furnace was based off plans bought here. I made my furnace slightly wider, to fit a
larger ceramic crucible, and used commercially made refractory rather than the
homemade one recommended in the plans.
Furnace Body: The shell of my furnace is made from two pieces of 7" ductwork put
together for an outer diameter of 14". Other items required for the body were the legs,
which were cut from 3/4" NPT galvanised steel pipe, and the lifting handles which are
made for garage doors and came from Home Depot.
The Bricks: The bricks are 2" thick firebricks, and were bought from a local masonry
supplier for about $2.50 each. I cut the grooves in the bricks using a cheap wet-saw,
intended for tile cutting, with the brick sitting on a piece of " plywood so that the fixed
blade wouldn't cut all the way through. I would make a pass through each brick, then
move the rip fence on the saw over a little bit, and repeat the process. Each groove
took about 6-7 passes, so the process was very time consuming. The results,
however, were quite satisfactory. I had trouble doing the brick with the angled grooves,
so I ended up drawing the lines on using a crayon then cutting the grooves using an
abrasive wheel in my angle grinder, which worked quite well.
Me cutting the grooves into the bricks. I put the saw on a stand right after this picture was taken,
since cutting the bricks took me a couple full evenings, and even I can't kneel that long!
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Foundry Contstruction http://www.budgiemetalworks.ca/foundryconstruction.htm
Refractory: I tried making the homemade refractory that Dan raves about, starting with
just the base of the furnace. I must have mixed it incorrectly as it was so crumbly when
it dried that it had to be replaced. I used a large $20 bucket of fireplace cement in the
process, plus a couple bags of perlite. For the amount of fireplace cement needed to
do the whole furnace, it didn't cost much more to buy a commercial, castable
refractory, and with that you know how it will turn out.
The refractory I used is Super Kastite 3000, which is rated for 3000F. It has a "K
Factor" (in BTUin/sq.ft.hrF) of 7 @ 1500F. I'm not sure what that means really; it
has to do with the insulating properties of the refractory. It weighs 143lbs per cubic
foot, and I used three 50lb bags for my furnace. I purchased it from a local supplier.
The refractory mixes up like cement, so you want it wet enough to be useable but not
so wet that it gets sloppy. I did the three sections of the furnace separately from each
other, sitting on a plastic bag on a flat surface, and I mixed the refractory in a
wheelbarrow. Wooden forms were cut on my dad's wood bandsaw and put around the
pieces of the furnace shell, which kept them from bending out of shape while the
refractory was being poured.
For the vent in the lid, I made the mistake of using a glass jar to form the hole. I
couldn't pull it from the refractory later, so had to smash it out. I strung wire across the
bottom of the base before pouring the refractory, rather than adding it afterwards as
Dan suggests. I also welded washers to the ends of the leg bolts, and strung
reinforcing wire between them to further strengthen the refractory.
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Foundry Contstruction http://www.budgiemetalworks.ca/foundryconstruction.htm
The three parts of the furnace, before the refractory was poured. Note the wood forms.
The furnace right after I finsished pouring the refractory.
Refractory Curing: After the refractory had set, about a week after pouring, I carefully
cured the refractory by heating the furnace slowly. This was easy in an electric
furnace, as I hooked it up directly to 110VAC, which warmed the element slightly; just
enough to make steam come out of the furnace for about 4 hours. When I couldn't see
any more steam, I hooked it up to the full power, but put little pieces of firebrick
between the lid and furnace body. This created a gap which kept the furnace from
heating up too rapidly. A couple hours later, I put the lid directly on the furnace and let
it go to full temperature. The refractory turned out very well, as no significant cracks
have formed after several heats.
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Foundry Contstruction http://www.budgiemetalworks.ca/foundryconstruction.htm
Curing the refractory. The gap under the lid keeps the furnace temperature from rising too quickly.
The temperature probe is reading 245C here.
Lifting Loops: I also bent a couple pieces of 1/8" x 1" flat bar into hoops and attached
them so that they were sticking out from the lid. This allows the furnace lid to be
removed by putting a steel rod through the hoops and lifting it off that way. I was
concerned that the handles would get too hot, however I usually just use them wearing
my gloves.
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Foundry Contstruction http://www.budgiemetalworks.ca/foundryconstruction.htm
The lifting loops installed on the furnace lid.
Part 2: The Element and Power Controller
Back to the Foundry Page Home
Last updated 2-Feb-09
Copyright 2009 Alexander Sutherland
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