After 5 years of using this foundry I decided to re-line the inside with some fire mortar. See the videos below
Project:
It all started with inheriting a 1949 Ducati Cucciolo (motorcycle /moped) which in itself deserves its own blog post some day down the road. One of the things I've noticed was that the kick stand was broken. Of course, the first thought I had was gosh, I can fix that. But soon i realized that it was actually cast aluminum which is pretty much impossible to fix so I thought gee, I can MAKE one. That started the long (but rewarding) journey and research into building my own home foundry.
Process:
There are a few things that are needed for a home foundry:
1. Foundry furnace
2. Propane burner
3. Molding sand
4. Molding flasks
5. Crucible & tools
Each of the above deserves a lot of details, but for the sake of brevity (and not to bore people, particularly my wife Melanie) I figured I'd give a brief summary, then the pictures
1. Foundry furnace
I found a 30 gallon steel drum at a scrap yard dealer for 10 bucks, cut it to size and lined it with a 2" layer of cement/vermiculite (1:8 ration by volume) with just enough water to make it workable. After curing the cement for a few days, I added a 3" layer of cement/silica sand/fire clay/water mixture (10:20:20:7 ratio by volume). After covering it with poly and letting it moist cure for a week I removed the poly and it's now drying. By the end of the week I hope it will be cured and dried enough to fire it
2. Propane burner
During our trip to the states I found a 20 buck propane burner that hooks up to a regular BBQ tank which I intend to use to fire the furnace and to use it to melt the aluminum. I will probably have to make some adjustments to it but I won't know until I'm ready to actually use it.
3. Molding sand
After some extensive research, I found out that molding sand is actually simply silica sand mixed with bentonite clay (the stuff well drillers use as lubricant and well sealant) and about 5% water. The clay makes the sand stick together enough to hold a shape and the coarseness of the sand makes it porous enough for the steam to escape when pouring molten aluminum into it.
4. Molding flasks
Simply a frame made out of wood to hold the molding sand
5. Crucible & tools
Although a $200 silicon carbide crucible would have been the cat's miao, I decided to go with the cheaper alternative and pick up a 6" long, 6" diameter 3/16" thick well casing at that same scrap yard for 5 bucks and weld my own crucible. The tools were made using 3/8" square solid iron rod bent into shape and a little hook from a piece of 1/4" round steel rod.
Videos:
Pictures:
1949 Ducati Cucciolo in its glory |
Broken kick stand that was fixed by a previous generation |
Drying out 40 lbs of bentonite clay |
Ball mill used to crush up bentonite clay |
Cement, silica sand and fire clay (clockwise from left) |
Mixed up refractory (10:20:20:7 ratio by volume of cement, silica sand, fire clay and water) |
Top 5" of water barrel with a 2" hole |
Mixed up insulation (1:8 ratio by volume of cement and vermiculite) |
Bottom 17" of water barrell |
Welding 10mm rebar into the lid for reimforcement |
After a 2" cement/vermiculite layer of insulation |
Adding a 2" cement/vermiculite layer of insulation around the outside as well |
Getting ready to place the refractory. I increased the hole to 4" |
Lid drying out |
Base after a 2" layer of cement/vermiculite insulation |
Placing a 9" centre to leave a 3" space for the refractory |
Cutting a 2" ABS pipe to create the hole for the propane burner |
You can see the refractory is half way done |
Almost at the top placing the refractory which was of a model clay consistency |
Top-down view of base |
Wrapped up in poly to cure for one week |
After a week of moist curing, air drying it out for one week |
A few 6" diameter well casings (9", 11", 6" high from L to R) |
Cutting a base out of 1/4" flat steel |
After the bottom was welded and a spout was hot formed |
The crucible after welding the hooks on the side and the back |
Hooked with the crucible tools |
The crucible tools |
As a test, I wanted to make a mold of a broken construction lamp |
Filling in the green sand |
The mold after it was rapped and struck off at the top |
The mold was flipped around and the bottom of the construction lamp is now visible |
After the construction lamp was pulled out. Normally, there is a second part of the mold, the two parts are put together and the cavity is where the molten aluminum is poured in |
It's been 4 years since I built the home foundry and it is still going strong. The fire clay has developed some cracks but nothing too big; I won't even bother patching it up. The crucible is taking a beating but is still almost 1/4" thick so I don't see it failing anytime soon. Here are some updated pictures of the furnace and crucible:
Tools:
Ball mill, welder, grinder, hammer, drill, hole saw, scale, vacuum, gloves, respirator, eye protection, ear muffs, measuring tape, pencil
Materials:
Vermiculite, silica sand, portland cement, fire clay, 30 gal. steel barrel, 4' of 10mm rebar, ABS pipe, sheet metal for core, 1/2" melamine for core, 6" dia. well casing, 1/4" thick and 8" wide flat steel for crucible bottom, 3/8" square steel rod and 1/4" round steel rod for crucible tools, poly
Cost:
$200.00 so far
Time:
About 40 hours so far, not including time spent for research
Conclusion:
To be determined
Would you make.one for me
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ReplyDeleteNice description. Thanks for sharing.
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