Welcome to my FlamingFurnace, backyard metal casting blog.

Hi everyone, I mainly focus on metal casting projects using recycled scrap aluminum and other accessories in the pattern creations.
Aluminum is a very versatile material and I would like to promote the awareness of aluminum recycling via different metal casting projects.

Feel free to check my YouTube channel where I provide detailed explanations, tips & tutorials for best backyard aluminum casting methods, homemade foundry equipment & of course the importance of safety when working with molten aluminum.

So remember recycle and Enjoy my blog ;-)

January 04, 2013

Backyard Metal Casting Setup Information

In this post I am going to try and cover for those who are interested in the setup of  a home made/backyard foundry. This is all based on my experience with aluminum metal casting. I tried different methods learning mostly by reading about metal casting and practical trial and error, whatever worked the best for me ;-)
I have to state that this post as all my other posts is based on my experience and is not a guide on "how to".
If anyone decides to use my method he will to do it on his on risk, I advice you read my site safety deceleration.
So lets get started: the most important part of running a homemade foundry is having all the necessary P.P.E. Always work with full body protective gear head to toe when handling molten metal never cut corners on this part.  The main components for a homemade foundry are:


  • All P.P.E designated for foundry to protect the metal caster from molten metal injuries.
  • Well insulated foundry for example using an old gas cylinder, metal bin, flower pot etc'. When I say insulated I mean good refractory to keep all the heat in the furnace. 
  • Foundry energy source to heat the solid aluminum bringing it to 660°C (melting point). This could be achieved with charcoals + air blower, Gas burner, waste oil burner or an electric furnace. Every energy source has its advantages and disadvantages.
  • Crucible is the container that holds the solid aluminum parts until it turns into molten metal.  The foundry crucible has to be solid enough to withstand the high temperature without breaking. A bad crucible could result in loosing all the molten metal at the bottom of the furnace. There are different types of commercial crucibles such as clay graphite crucibles, silicon carbide crucibles, ceramic crucibles and more. I will focus on a homemade metal crucible.
  • Foundry tools such as crucible lifting tool / tongs, crucible dross skimming spoon, water pump pliers.
  • Ingot tray some sort of container that will hold the left over aluminum from every casting. It is possible to use a metal muffin tray to get nice and neat ingots or to weld L bars for larger ingots (easy solution for stacking).
  • Molding sand either green sand or oil bonded sand. Both are good for casting aluminum parts.
  • Foundry flask for sand casting, either from timber or metal is good as long as the cope and drag parts align.
  • Aluminum source there are many objects around us made of aluminum that can easily be melted and recycled into a new object. A good source of aluminum could be found in car engine parts such as an engine block, bell housing etc'.
First I will start explaining about a homemade crucible. I have experimented with different types of crucible mostly made from metal. I started using food cans and a kitchen pot, I would not recommend anyone to use cans or pots as crucible the metal is very thin and it will break very quickly under the high temperature of the foundry (see image below). The molten metal can end at the bottom of the furnace or worst case scenario on the metal casters feet. So a big no no for food cans as crucible.  After using a metal  pipe as a crucible that was too narrow was no use at all. Then I used a square crucible the metal was a bit thicker and lasted for about 10-20 casting sessions but eventually gave in and the molten metal ended at the bottom of my foundry. See image of aluminum blob. It took me a lot of time to get the solidified aluminum blob out from the bottom of the furnace, I have remelted it back into ingots.
foundry metal crucible Aluminum blob
At this stage I decided to make a proper metal crucible that will last me longer. Two things where important for me, first to make it as safe as possible and secondly to get max volume of molten aluminum out of it as my foundry is relatively small.
I used old scrap metal from a broken scooter to make all the crucible lifting tools.
The only part I purchased from a metal fabricator factory was a metal pipe size: 140mm-Diameter and 8mm-thickness. I asked the guy in the factory to cut two sizes one: 200mm (H) the other 110mm (H). Its more convenient to use smaller crucibles for small casting projects.  I also bought a metal base plate 5mm -thick for the crucible. I cut the metal plate with an angle grinder into a octagon shape that way it fit nicely into the foundry cavity. I also threaded two bolts into the sides of the crucible to be used with the crucible lifting tool.
two metal crucibles Metal crucible base About to melt  my old aluminum sand rammer After welding crucible baseCrucible in fire with molten aluminum
Next stage was to make the lifting tool, I have used scrap metal for this part. The lifting tool is made from two parts the actual lifting tool and a tilting tool.
The lifting tool is constructed from an old scooter and square iron tube and the tilting handle I made by welding a re-bar into an L-shape.
used scooter scrap metal after cutting metal to correct size Drilling crucible lifting tool part cutting the crucible lifting parts fabricating the crucible lifting parts attaching bolts to crucible lifting tool
After making the lifting tools its important to check that they work well ,for example lifting the crucible in and out of the foundry checking that nothing gets in the way. Its also very important to make sure that while lifting the crucible and tilting the crucible that it won't fall out of the lifting tool notches.  The last tool and the most easiest one to make is the foundry skimming tool. Its always good practice to make a long handle for the skimming spoon. I made my skimming spoon from a metal rod and I welded to it a large kitchen spoon.
after finishing the foundry tools dry ftest of crucible and lifting tool foundry tools tilting crucible dry test bolts in cruciblee will be used to lift it molten aluminum skimming spoon
This metal crucible is excellent for backyard metal casting, I have used it many times and it works perfect in combination with the crucible tools. The next thing I needed is a good and functional ingot tray. Since I am using bigger crucible I am using more aluminum and the muffin tray that I used before is a bit small at this stage. Ingot tray size can vary depended on the size of the foundry and the volume of the castings. The new Ingot tray I made from welded L-bars. The triangular aluminum ingots make it easy to stack pile them. It is very important to preheat the ingot tray during every casting session just before pouring the molten metal into it. I usually place the ingot tray on top of the hot foundry for a few minutes before pouring the molten metal into it.
checking crucible and ingot size different aluminum ingots sizes muffin tray for aluminum ingots making of L bar ingot mould first use of ingot mould easy to remove aluminum ingots triangular  aluminum ingots make it easy to stack pile them
I still didn't have time to finish my aluminum flask project at the moment I have only 4 parts complete and I have to sand cast 4 more. A good solution for temporary flask or just a cheap foundry flask is to make it out of timber. The flask could be made from scrap timber as long as the cope and drag of the flask align together. The size of the flask depends on the size of the object to be casted. Just remember the bigger the flask is the more casting sand and weight you will have to take into consideration. For large wood flask it's recommended to create some sort of ribs inside the flask either by nailing some sort of strip or to make grooves in the inside of the flask. What ever works is good if it keeps the sand in the flask ;-)
open wooden foundry flask foundry flask cope and drag closed different sizes of foundry flasks first use of large metal crucible shiny molten metal aluminum ingots
The last two images are the main components needed to run a homemade foundry. In my next posts I will cover the issues like how to polish aluminum parts and about different sources of aluminum for the backyard metal caster.
foundry tools, burner, ingots, green sand foundry tools and aluminum ingots
Happy casting ;-)





November 17, 2012

Sand Casting new ball handle

I decided to upgrade my kitchen stool handle by changing it to a large aluminum ball handle. Last year I  sand casted two aluminum balls, I used my sons plastic toy ball as a pattern ;-)
Since then I didn't really have a use for those aluminum balls but I kept them knowing I would find some use for them. In this first set of images you can see the sand casting process. I used petrobond (oil bonded sand).
Creating the sand mold impression of the balls was a very simple process, however its not a split pattern so it took a bit longer to carve the sand up to the middle of the ball.
After the molten aluminum cooled down I opened the wooden flask and cut off the riser with a hacksaw. Then I cleaned the extra aluminum using a metal file and an electric sander.
After cleaning the aluminum ball  I used my tap and die set to make a threaded hole in the aluminum ball. Once that was done I polished it and attached it into place.
sand casting aluminum ball

September 30, 2012

Sand casting paintball handle

I get many emails from people that are interested in creating aluminum replica's from another objects.
I got a request from one particular visitor who wanted to create a replica of a plastic paintball gun handle into an aluminum handle. I really enjoyed creating this part. The sand molding process was very basic and it was very easy to polish the finished product.

September 24, 2012

Electrolysis rust removal for a rusty pipe wrench

This is just a few more images of another electrolysis de-rusting session. I found this pipe wrench in a metal recycle bin and it looks like his former owner was a bit intimidated by the rusty look. Anyway after leaving the wrench in a derusting electrolysis bath over night the wrench is as good as new;-)

May 12, 2012

Cope and Drag casting project

This is just a follow up post for my aluminum foundry flask casting progress.
The first four parts of my flask cope are casted, at this stage I have to cast four more parts for the drag part. I made a video of the molten aluminum pouring process and the sand mould shake-out.

April 12, 2012

Electrolysis - Rust Removal Method

This post is not really related to metal casting it's just informative and interesting. I made this video showing a method of de-rusting. It is effective, cheap and every one can try this at home.
In the images below you can see the the results of this process and how efficient it is.
You can also see the electrolysis bucket that I made, I welded bolts to rebars using them as the sacrificial anodes and plywood as a base plate.

The next two images is the electrolysis de-rusting in action!

This images are the before and after using the electrolysis rust removal method.
bringing some rusty objects back to life.

This is the video I made showing how to preform the electrolysis rust removal from a-z.
Enjoy ;-)

April 05, 2012

Casting a new foundry flask (Part II)

Yesterday I casted the second pattern of my new aluminum foundry flask. The first attempt of the sand moulding failed. I had to improve the angle/draft around the patterns handle section. After using more filler, sanding it and then finishing with a coat of varnish.
The angle filler adjustment did the job and the sand mould second attempt was very good. I used again my homemade green sand and the aluminum casting was satisfactory.