Build a Microwave Transformer Homemade Stick/Arc Welder
I had no idea making a DIY welder would be so easy to do. And, it's pretty much FREE!

Additionally, the stick welder you get is definitely better than anycheap commercial welder you can buy.
Why is this homemade thing better than something you can buy? Because when you factor in shipping and labor and the little bit of retail markup - the companies that make typical cheap buzz boxes will skimp on copper as much as possible. Whereas you can use enough copper in this to make something really juicy, and still spend less, to nothing, compared to a store-bought arc welder.

So here's what you need to build a welder:
- Two beat up old microwaves
- Some 10 gauge wire
- Wire nuts

People throw out microwaves all the time, if you keep your eyes on the curbs.
Or, you can get microwaves at the local thrift store for $10 each.
Try the warehouse that processes donations - they have to pay to get rid of tons of broken ones.

Stuff you need for welding:
- Welding helmet ($16 and up)
- Welding rods ($6)
- Vice grip or purpose-built electrode holder ($6 for either)
- C clamp for grounding clamp
- Gloves
- Thick nonflammable (leather) clothing that will cover your arms

Disclaimer: High Voltage ELECTRICITY and lots of CURRENT! Heat, electrocution, and DANGER! You could die and you could go blind.

That said, try this at home!

See this for a lot of welding safety tips

Here are the really good how-tos that this project is informed by:
build a 70 amp welder
the tiny tim welder by tim williams
home made welding machine (via afrigadget)

Dan Hartman's how-to is good for reference, too.

And here's the quickest way to make a DC welder with a bunch of 12 volt batteries.

Step 1: Dissect the Microwaves

Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
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Invite your non-hardware oriented pals over to help help dissect your donor appliances.
They'll love it. David Grosof donated one of these microwaves under the condition that we take it apart together.

Good safety tip:
You'll find a gigantic capacitor inside the microwave. It looks like a metal can with two tabs on top.
Short it out to make sure it doesn't have any leftover charge on it, before you poke your hands anywhere near. Just put a screwdriver or something metal you aren't connected to, across the two metal terminals shown here.

Step 2: Prepare the Transformers

Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
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Chop and and knock out the secondary (thin wire) windings.
Don't nick or damage the primary windings in any way.

If you do, you could create shorts where two windings conduct to each other, allowing electricity to bypass certain parts of the coil, making effectively a smaller coil, and creating something different than what you expect at the output. Or, you might chop the connection entirely, ruining the primary. So do your best to keep it intact.

Step 3: Get some 24 foot chunks of ten-guage wire

Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
We scavenged some heavy wire from an old powerboat the owner was scuttling.We stripped the outer jacket off and separated the inner conductors to wind new secondarieson our transformers.

Step 4: Wind the new transformer secondaries

Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
We wound 20 turns of 10-guage wire on each transformer. That's just about how much wire would fit into the available space. It took a little over 20 feet of wire each.tip: draw tally marks on your table to keep track of the number of windings. How does a transformer work?The primary winding is an electromagnet connected to alternating current.The humming magnetic field of the primary induces a current to flow in the secondary winding. If both windings have the same number of turns, the output voltage is the same as the input.(minus a smidgin due to eddy currents, resistance, etc.)If the secondary has more turns than the input, its output voltage is higher. That's the type of transformer you started out with.OUTPUT VOLTAGE = INPUT VOLTAGE * (NUMBER OF SECONDARY TURNS) / (NUMBER OF PRIMARY TURNS)Our primary has 100 turns and gets connected to 100 volts AC. We're winding 20 turns on the secondary, so we'll get about 20 volts out. The available POWER STAYS THE SAME regardless of what the output VOLTAGE is. POWER (WATTS) = AMPS * VOLTSIf the primary is made take 1000 watts (100 volts * 10 amps) out of the wall, we'll be able to take 1000 watts out of the secondary. With 1/5 of the windings, we can draw 50 amps out of the secondary. That's the cartoon version with play numbers anyway.Over here in our shed full of reality we've got two of these beasts in series and plan to short the outputs through a welding rod like Jennifer Beals.Let's just say we're going to pull a whole lot of amps, which is why we need to wind our secondary with such thick wire.The copper conductor in ten-guage wire happens to be 1/10" (0.1") in diameter.Here's a table of conductor diameter, guage, and current rating.

Step 5: Schematic

Build a Microwave Transformer Homemade Stick/Arc Welder
It's a pretty simple circuit.
In fact there's nothing in it except wire!

We'll take two transformers and wind low-voltage secondary windings on them with thick wire.

We'll put the secondaries in series with our welding rod and workpiece.
We'll plug the primaries into the wall.

I really like the way aaawelder put it: "do not include yourself in this circuit"

Step 6: Wire your two transformers together

Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
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Why do we use two transformers? Just one of these isn't big enough to make a really juicy welder.If you happen to find a big enough transformer somewhere, feel free to use that.Here's how to hook up two transformers.First we wire both primary windings in parallel to the wall cord.Then we wire the thick secondaries in series so they both"Push and pull" in the same direction.

Step 7: Test

Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Get out yer voltmeter:Here's the test to make sure the secondaries are both pushing the same direction.Our two secondaries in series produce 38volts AC with no load. That seems about right.If they'd phased wrong it could have been fixed by reversing the wiring to any winding.Where Tim says "out of phase" in the video, he means "in phase". That is, the center tap should be less than the outer two leads, and if things weren't that way, the transformers would be fighting each other, or phased wrong.

Step 8: Weld

Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
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holy cow, it works!We wanted to add a series inductor to give the unit more "inertia", but it didn't matter!Here's Tim welding with some of those. Built your welder, but not sure how to weld? Check out the instructional videos on youtube - search "how to arc weld". They're very good.Here's Star striking an arc. It welds great with these thin 1/16" 6013 rods. Even better with 3/32" 6013 rods.

Step 9: Thick Rod Test

Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Those skinny 1/16" electrodes cost about twice as much as thicker ones.We wanted to see how our welder works with thicker electrodes.The next size up is 3/32", but we got a box of 1/8" 6011 electrodes.When we pulled one out of the box we both said "wow, that's thick".We fired up our welder and I welded this bead across the diamond plate with 1/8" rod.The arc was pretty short but it burned in well and felt pretty good once I got used to it.I had to shove it in a bit more than I'm used to to keep the arc going, but sticking wasn't a problem. I welded a long bead and used up more than half the rod without stopping.That's the long weld in this photo.Then I set the "torch" in this plastic tub so it wouldn't short out to anything.I checked the transformers, and they didn't even get warm!3/32" rods are less likeley than 1/8" to blow a circuitbreaker though. For your first welds get 3/32" 6013 rods.6011 rods have thinner flux and make it easier to see what the metal of your weld is doing, but tend to spatter a bit more.The next picture is for reference, fromhobartwelders.comUdate 4/16/2008:This is now my favorite welder. I made new leads for it from a pair of jumper cables. I left one alligator clamp on for a ground clamp, and added a $6 electrode holder. I've taught a bunch of people to weld using it.The next photo is Ita welding for the first time, making an awning frame. That project was welded with this welder by total beginners using 3/32" 6013 rods. As you can see we have every other kind of welder, but the homemade ones are more fun.

Step 10: Welding Stainless Steel

Build a Microwave Transformer Homemade Stick/Arc Welder
We needed some brackets for Solara's mizzen mast.So we went to the welding store and bought some 3/32" "Hobart Smootharc+ 316L - 16" stainless welding rods. They're only 12" long because stainless has high electrical resistance and they get really hot.After much designing and sketching Victor, Kenny, and I cut, drilled, bent and welded these brackets. Very easy. When it cooled the flux went "tik" and fell off the weld. The dark area around the weld is soot from the flux.The welder could have handled much thicker rods due to stainless' high resistance and low thermal conductivity.Important: Use a fresh grinding wheel on stainless, or one that you only use on stainless. You'll get rust if you use any abrasives that have been used on non-stainless steel. Same for the wrong wire brush. It will smear rustable iron on the stainless, and due to galvanic effects it'll rust quick if it gets damp.Hooray! Where did I get the idea you needed TIG for stainless? Stick welds on stainless are just great!

Step 11: Dimmer Control and Welding Thin Wall Tubing

Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
The welder was too hot for thin-walled tubing frames, I kept melting holes even with the 1/16" 6013 rods. So I plugged the welder into a variac dimmer and turned the power down about 30%.
That gave me very fine control over power. Marc Lander and I did some very nice welds as seen here. After a few we got good enough to do the same welds with 3/32" 6013 rods and no dimmer and not burn holes.
More tricks - I used my left hand to feed a piece of mig welding wire into the weld to add more metal in and soak up the heat. Here's Marc doing that. Any wire is fine for this, coathangers are traditional for muffler work. Sand off the paint first if you don't like fumes.
Stopping to eat lunch helped a lot also. Your welds won't be good when you're shaky and tired.

I got my variac for free, don't buy one for this, they cost as much as a welder.
A solid-state dimmer that's rated for inductive loads does the same thing and costs a lot less.

If you're feeling particularly fancy, you can add in your own scr-based switching circuitry to vary the power, like this guy did.

Step 12: Other Welders

Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Build a Microwave Transformer Homemade Stick/Arc Welder
Folks have sent me a few photos and videos of welders they've built off of this instructable. I want you to be able to see them too, so here they are!

Here's a video I got from Paul du Buf, of the Netherlands (nice case, Paul!)

'

Cheyyne said:
Hey there, here's my welder based on your instructabletion. It outputs 35.5v, because the transformers were a little smaller than yours I think (couldn't wind a single more turn). So far I have managed to lay down gobs of metal on various steel objects in my garage, but I still suckat welding. Luckily I rented a nice welding video from Smartflix that had good reviews, hopefully that'll give me some insight into the process. I did manage to lay down a 1" bead though! The whole thing is going into a tacklebox housing.Props for a great instructable. Thanks for it!
llamafur followed with:
Heres another one, same basic welder, but its housed in a .50 cal ammo can. Looks pretty sweet. Its relay controlled ( two 15 amp HVAC control board relays wired in parallel) , I measured 24 volts ac across the output wires.its also sorta heavy, 30 pounds.
 
 

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