Soldering Stainless steel

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I did something similar, but take the post above's advice as he didnt make the mistakes I did.

I used a 1 1/4" conduit punch (~1.75" hole), which meant a bigger dimple. I also used a custom made tool but had it made to exactly 2". With the flex of the larger dimple this left me with a hole a fair bit too small. It took alot of grinding/hammering to get it in place.

If you can... start with a hole that is closer to 2" (but not too close), and use a tool that allows for you to go slightly larger then 2". It will save yourself alot of grief.
 
Everbody has a different take on this, so I thought I throw out mine.

I'm way to cheap to buy anything, so I built a dimple maker out of 2 sockets and bolt.

Drilled a 1/2" hole with a step bit, pulled the dimple, and ran 3/4 ridged copper pipe through and soldered.

Attach fitting of your choice to pipe.

13mm kobalt 1/2 drive socket makes the dimple

24mm socket, bolt, washers, nut yada yada yada

don't pull it all the way through it will be too loose

IMG_7613.jpg

This seems like a really good idea - has anyone else tried it? I was just about to pull the trigger on purchasing various concentric reducing couplers, etc... when I saw this. Would appreciate feedback from anyone who has used sockets to flare holes before I give it a try...
 
I've been lurking and learning on HBT for more than a month now, and have learned great deal on many interesting threads, but this one takes the cake. I've just reached the last post after reading everything through from end to end, and even after more than 1000 posts, there was still more new and useful information.

I'm kind of google-eyed and realize that I am the only one to post on this thread in the new year so far, but I have a couple questions in case anyone out there with expertise is still monitoring this thread:

1/4" WELDING SPUDS: I want to use 1/4" compression fittings for my thermo probes and want no protrusion into the interior cavity (other than the probe). From what others have done, it sounds like a 1/4" half coupler welding spud is what I want to use. Specific questions I am still not clear on:

-is there any reason to dimple the hole for these fittings? From what I read, the 1/2" half couplers can just be laid on a circular bed of solder and allowed to melt down into a bead by heat and gravity - any reason that this would not also be the best way to solder on the 1/4" half-couplers as well?

-one advantage of dimpling the hole is that the spud is held in place. If it is better not to dimple for a 1/4" thermoprobe fitting, what size hole should be cut and how do you assure that the fitting remains centered on the hole while heating?

LEVEL GUAGE: When you solder on a half-coupler for use with a level guage, is anything usually done in advance to position the coupler so that an elbow will screw in to the correct orientation (vertical)? This should be an issue with any welded fitting for use with a level guage - is there always enough slack to get a tight seal oriented vertically (with Teflon tape) or is there something that should be done to predetermine the ideal 12 o'clock position on the spud before welding/soldering?

TRICLOVER FERRULES: It seems that welders generally shy away from trying to weld the short 1/2" (12.7mm) triclover ferrules because it is too tight for them to work. With dimpling and soldering it should be no more difficult to solder on the shorter ferrules - has any one done this? Is there any downside (not enough space for the clamp, etc...)??


My list of questions would have been sooooo much longer only a few short days ago.....

Thanks for everyone who has contributed to this thread in the past anyone still monitoring that can help me with the above questions before I try my first joints.

-fafrd
 
I think you are confusing your parts/terminology. A welding spud looks like this, there is no need to dimple, nor could you install it if you dimpled.

A half-coupling looks like this. These as well as full-couplings can be dimpled.

Hope that helps!
 
fafrd said:
TRICLOVER FERRULES: It seems that welders generally shy away from trying to weld the short 1/2" (12.7mm) triclover ferrules because it is too tight for them to work. With dimpling and soldering it should be no more difficult to solder on the shorter ferrules - has any one done this? Is there any downside (not enough space for the clamp, etc...)??

I soldered short ferrules into my kettle. Clearance with the wings on the clamp can be tight depending on orientation, but I don't find it to be an issue. I dimpled outward and pushed the ferrules in by hand though (which was a pain). If you dimpled inward it might put the flange too close to the kettle wall.
 
I soldered short ferrules into my kettle. Clearance with the wings on the clamp can be tight depending on orientation, but I don't find it to be an issue. I dimpled outward and pushed the ferrules in by hand though (which was a pain). If you dimpled inward it might put the flange too close to the kettle wall.

Same for me. You can see pictures of my setup up a few posts, the last pic shows that there's not much clearance there between the clamp and the wall, but the curvature of the vessel helps.
 
I just wanted to thank everyone who posted to this thread. I learned a lot an was able to pull a dimple and solder two couplings yesterday. Great info for someone who has never done work like this before. Cheers.🍻

image-43514916.jpg
 
I think you are confusing your parts/terminology. A welding spud looks like this, there is no need to dimple, nor could you install it if you dimpled.

A half-coupling looks like this. These as well as full-couplings can be dimpled.

Hope that helps!

wyazz, yes, my bad - sorry. I'd seen the half-couplings and reading through all the many posts on this thread, guess I interpreted references to 'welding spuds' to be talking about the same thing. I am planning to use 1/4" half couplings - NOT welding spuds.

Thanks for helping me to clarify. And understand that true spuds CANNOT be dimpled and that half-couplings CAN be dimpled. My remaining question is whether there is an advantage (or a drawback) to dimpling a 1/4" half-coupling versus just letting the half-coupling sink down into a bed of solder on the outer surface of the vessel?

And also have an additional question after thinking things over last night: If the half-coupling can be effectively soldered onto the outer surface, is there any reason that the hole cannot be drilled after the half-coupling has been soldered? This would be for a temperature probe.

Great to see that people like you are still monitoring this thread and contributing!

-fafrd
 
I soldered short ferrules into my kettle. Clearance with the wings on the clamp can be tight depending on orientation, but I don't find it to be an issue. I dimpled outward and pushed the ferrules in by hand though (which was a pain). If you dimpled inward it might put the flange too close to the kettle wall.

Thanks - my orientation will be out from the middle of the bottom surface of the Mash Tun for a bottom drain, so I suppose this would be the worst case as far as orientation, right? For this situation would you recommend going with one of the 1" length ferrules?

Also, I saw in one thread where they filed down the 'corners' of the end of the tube on the ferrule so that it would be easier to 'pull' back into the kettle after the dimple had been made outwards - is this how you did it? Was it a pain because you had to taper the end of the ferrule or despite that?

I'm also considering putting a separate 1" ferrule out from the side as close to the bottom as possible. This would be for a removable foldback heating element and so I would need to use a short ferrule because of the foldback. In this case, the clamp has full clearance from below because you are below the bottom of the vessel. Would you have any concerns about this configuration? How close to the bottom surface of the kettle do you believe the ferrule could be placed? With dimpling, it seems like you should be able to get the ferrule just above the bottom surface. From your experience, would you have any concerns about this position and orientation?

I'm debating the soldered-on-one-inch-nut idea as well, but it seems like for a fold-back element and wanting to get the element placed as close to the bottom surface of the vessel as possible, the tri-clover ferrule offers the greatest flexibility (as well as being easily removable).

thanks again,

-fafrd
 
Same for me. You can see pictures of my setup up a few posts, the last pic shows that there's not much clearance there between the clamp and the wall, but the curvature of the vessel helps.

So do you think that coming off of the center of the bottom of the vessel for a bottom drain (flat surface - no curvature) that there would not be enough clearance to get the clamp in place with a short ferrule?
 
I just wanted to thank everyone who posted to this thread. I learned a lot an was able to pull a dimple and solder two couplings yesterday. Great info for someone who has never done work like this before. Cheers.��

View attachment 94726

Hockypuck,

for someone who has never done work like this before, those are damn nice-looking joints!!! :mug:

I'm hoping to follow in your footsteps soon (though I have some silver soldering of brass onto stainless 20 years ago :)

Looks like you did 1/2" full couplings - can I ask how long it took you to do both couplings as a 'virgin'?

Also, did you purchase the recommended concentric couplers to make your dimpling tool or do something different? I am thinking about trying the idea of using sockets that was posted a few pages back...

-fafrd

p.s. and one more question - I suspect that you probably purchased the recommended solder and flux, but since some have apparently been successful using standard unleaded plumbing solder, I just wanted to ask what solder and flux you used for these joints....

and while on the subject of additional details, what did you use to cut your holes (step bit or hole saw)?
 
My remaining question is whether there is an advantage (or a drawback) to dimpling a 1/4" half-coupling versus just letting the half-coupling sink down into a bed of solder on the outer surface of the vessel? Dimpling allows for a mechanical bond as well as the soldering bond that is created. It is stronger than just soldering the fitting on to the metal.

And also have an additional question after thinking things over last night: If the half-coupling can be effectively soldered onto the outer surface, is there any reason that the hole cannot be drilled after the half-coupling has been soldered? This would be for a temperature probe. You have a higher likelihood of marring your threads inside the coupler. JMO

Hope that helps. :mug:
 
wyazz,

thanks for the feedback.

I know that dimpling makes the joint stronger mechanically, but for a temperature probe I don't think this extra mechanical strength would be needed. Unless there is a fear that the coupling would fall off, soldering down onto the surface should be strong enough (as several others have apparently done) - is there something more I am missing?

And as far as marring threads when drilling AFTER soldering, that would be my concern as well. On the other hand, the hole would only be drilled to the ID of the pips while the threads only extend in to the OD of the pipe. For example, with the 1/4" half-coupler I am planning to use, a 1/4" (0.25") hole would need to be drilled into the center of a coupling whose threads only extend to within about 0.460", so there would be close to 1/8" of clearance between the outside edge of a 1/4" drill bit and the threads of the coupling. Of course, you could not use a step bit and you would want to keep the 1/4" bit from rattling around, so starting with a good center punch would seem to be mandatory and it may also be a good idea to start with a small pilot hole... Thoughts?

There are two things I find attractive about both of these ideas:

1/ minimum disruption to sidewall of vessel - the hole is as small as possible and causes minimum deformation to the sidewall (versus dimpling, for example).

2/ self-aligning (no risk of the half-coupling soldering down off-center versus a pre-drilled hole).

I may make a practice joint like this on my keg top and see how well it works...

-fafrd
 
fafrd said:
Hockypuck,

for someone who has never done work like this before, those are damn nice-looking joints!!! :mug:

I'm hoping to follow in your footsteps soon (though I have some silver soldering of brass onto stainless 20 years ago :)

Looks like you did 1/2" full couplings - can I ask how long it took you to do both couplings as a 'virgin'?

Also, did you purchase the recommended concentric couplers to make your dimpling tool or do something different? I am thinking about trying the idea of using sockets that was posted a few pages back...

-fafrd

p.s. and one more question - I suspect that you probably purchased the recommended solder and flux, but since some have apparently been successful using standard unleaded plumbing solder, I just wanted to ask what solder and flux you used for these joints....

and while on the subject of additional details, what did you use to cut your holes (step bit or hole saw)?

FAFRD,

Thanks for the response. I did use full couplings. The longest part of the process was drilling a hole. I used a self tapping step bit I got from amazon. The dimpling tool was the recommended tapered 3/4-1/2" coupling with the larger coupling. I did have to use a half inch bolt and a crap load of washers instead of the recommended 5/8" bolt and it worked just fine. One dimple took longer than the other. Be careful to check the size of your coupler against the size of your taper. The first time I did it I pulled the taper all the way through and it ended up being too large of a hole to hold the 1/2" coupler. I ended up using a hammer to pound the hold back down to where I could draw the coupling into it securely. The soldering took minutes. Overall I'd say it only took two hours total including sanding and filing. A dremel helps with the cleanup. I used a small kit of the Harris stay brite flux that came with small gauge solder.Found it at my local airgas for $12. I tried both making a ring of solder and just heating and touching and found the touching worked better than trying to rely on the ring of solder to spread properly on its own. The heat/touch allowed me more control. Have fun. I'm glad I finally did it.
 
Been reading this thread for awhile now and I am starting to order the parts for my dimple tool but I can not for the life of me find 9/16" bolts fully threaded...anywhere. I've searched lowes/home depot/ and no where on mcmaster carr. I even tried the metric equivalent (m14?) with no luck. Any help here? Part number? Thanks guys!
 
I know that dimpling makes the joint stronger mechanically, but for a temperature probe I don't think this extra mechanical strength would be needed. Unless there is a fear that the coupling would fall off, soldering down onto the surface should be strong enough (as several others have apparently done) - is there something more I am missing? I have banged my kettle around pretty well after a brewday & those fittings stick out a bit, I want them to be as strong as possible. You can solder perfectly fine without dimpling, but dimpling makes it stronger. I like the extra reassurance.
 
DrPhilGood said:
Been reading this thread for awhile now and I am starting to order the parts for my dimple tool but I can not for the life of me find 9/16" bolts fully threaded...anywhere. I've searched lowes/home depot/ and no where on mcmaster carr. I even tried the metric equivalent (m14?) with no luck. Any help here? Part number? Thanks guys!

I used a 1/2" bolt with no problems.
 
I have banged my kettle around pretty well after a brewday & those fittings stick out a bit, I want them to be as strong as possible. You can solder perfectly fine without dimpling, but dimpling makes it stronger. I like the extra reassurance.

OK - thanks. I guess if I ever knock one of these of I can always dimple and re-solder, right? For a temperature probe, I like the idea of a minimum-sized hole in the vessel wall if it can be strong enough...
 
FAFRD,

Thanks for the response. I did use full couplings. The longest part of the process was drilling a hole. I used a self tapping step bit I got from amazon. The dimpling tool was the recommended tapered 3/4-1/2" coupling with the larger coupling. I did have to use a half inch bolt and a crap load of washers instead of the recommended 5/8" bolt and it worked just fine. One dimple took longer than the other. Be careful to check the size of your coupler against the size of your taper. The first time I did it I pulled the taper all the way through and it ended up being too large of a hole to hold the 1/2" coupler. I ended up using a hammer to pound the hold back down to where I could draw the coupling into it securely. The soldering took minutes. Overall I'd say it only took two hours total including sanding and filing. A dremel helps with the cleanup. I used a small kit of the Harris stay brite flux that came with small gauge solder.Found it at my local airgas for $12. I tried both making a ring of solder and just heating and touching and found the touching worked better than trying to rely on the ring of solder to spread properly on its own. The heat/touch allowed me more control. Have fun. I'm glad I finally did it.

Thanks for these additional details. So getting the holes cut right, dimpled, and smooth sounds like the long pole in the tent versus the actual soldering. Someone pointed out that cutting the holes with a stepping bit amounts to cutting 4 or 5 holes. If you had to do another joint would you try a hole saw or were you happy enough with the stepping bit? (I have not yet bought my bits)

And when you say two hours was that an hour per hole (two hours for both holes) or two hours per hole (4 hours for both holes)?

I've done some silver soldering using the 'heat and touch' method, so given your experience, I will probably try that technique for my first attempt...

I assume you have a socket set - would you think that using sockets to make a dimple tool would work as well as the fittings you used or is there a reason you think the coupler you used was more effective than a socket-based tool would have been?

-fafrd
 
fafrd said:
Thanks for these additional details. So getting the holes cut right, dimpled, and smooth sounds like the long pole in the tent versus the actual soldering. Someone pointed out that cutting the holes with a stepping bit amounts to cutting 4 or 5 holes. If you had to do another joint would you try a hole saw or were you happy enough with the stepping bit? (I have not yet bought my bits)

And when you say two hours was that an hour per hole (two hours for both holes) or two hours per hole (4 hours for both holes)?

I've done some silver soldering using the 'heat and touch' method, so given your experience, I will probably try that technique for my first attempt...

I assume you have a socket set - would you think that using sockets to make a dimple tool would work as well as the fittings you used or is there a reason you think the coupler you used was more effective than a socket-based tool would have been?

-fafrd

I'm a cheap ass so I'd probably stick with my step bit when I do my third keg. The holes became slower to cut when I got closer to the final size I needed for some reason. I'd say the first coupling took about an hour an a half while I was figuring it out as I went and being extra careful. Once I knew what I was doing I flew through the next hole in about half an hour. I haven't read the part about the sockets. I do however think the tapered coupler is a more gradual way to open the steel and ward off any tearing in the metal. I'm not even sure if this is something to be concerned about but whatever. Cheers.
 
Everbody has a different take on this, so I thought I throw out mine.

I'm way to cheap to buy anything, so I built a dimple maker out of 2 sockets and bolt.

Drilled a 1/2" hole with a step bit, pulled the dimple, and ran 3/4 ridged copper pipe through and soldered.

Attach fitting of your choice to pipe.

13mm kobalt 1/2 drive socket makes the dimple

24mm socket, bolt, washers, nut yada yada yada

don't pull it all the way through it will be too loose

IMG_7613.jpg

I'm a cheap ass so I'd probably stick with my step bit when I do my third keg. The holes became slower to cut when I got closer to the final size I needed for some reason. I'd say the first coupling took about an hour an a half while I was figuring it out as I went and being extra careful. Once I knew what I was doing I flew through the next hole in about half an hour. I haven't read the part about the sockets. I do however think the tapered coupler is a more gradual way to open the steel and ward off any tearing in the metal. I'm not even sure if this is something to be concerned about but whatever. Cheers.

This is a quote of post #1044 on page 105. I thought this was a pretty good idea when cbherrington3 first posted it but no one has commented on it...

And I may be more of a cheap ass than you - if I can avoid blowing the bucks on concentric couplers and still get a good dimple, I'd rather spend that cash elsewhere... How much did you spend on fittings for your dimple tool?

And thanks for the clarification on time - so an hours learning curve up-front and then about a half an hour per joint - not bad!

-fafrd
 
I have a few pinhole leaks on two of my holes. Has anyone done this on both the inside and outside? Pool the solder on one side then plain solder the other side. Kind of double protection.
 
I have a few pinhole leaks on two of my holes. Has anyone done this on both the inside and outside? Pool the solder on one side then plain solder the other side. Kind of double protection.

I would clean everything up, re-flux, re-heat & re-flow the solder. It should wick through the joint a bit and seal those holes.
 
OK - thanks. I guess if I ever knock one of these of I can always dimple and re-solder, right? For a temperature probe, I like the idea of a minimum-sized hole in the vessel wall if it can be strong enough...

The thing about drilling a smaller hole in the wall after the coupler is soldered onto the outside is that you would end up with liquid trapped inside the fitting.
The hole for the temp probe would be smaller than the coupling, correct? Just big enough to get the temp probe through?

So when the water/wort/liquid level is above that hole, it will naturally flow into the fitting - into the area between the kettle wall and the temp probe threads.
However, when you drain the kettle not all of that liquid will be able to drain out, a small amount will be trapped in the fitting below the temp probe hole.
It won't be a huge amount of fluid, but maybe something to consider
 
The thing about drilling a smaller hole in the wall after the coupler is soldered onto the outside is that you would end up with liquid trapped inside the fitting.
The hole for the temp probe would be smaller than the coupling, correct? Just big enough to get the temp probe through?

So when the water/wort/liquid level is above that hole, it will naturally flow into the fitting - into the area between the kettle wall and the temp probe threads.
However, when you drain the kettle not all of that liquid will be able to drain out, a small amount will be trapped in the fitting below the temp probe hole.
It won't be a huge amount of fluid, but maybe something to consider

DustBow, this is a good point and thanks for the heads-up. The half-coupling I am considering

(shown here: http://www.mcmaster.com/#cadinlnord/4464k222/=l2sxkm)

has an unthreaded portion against the weld/solder surface, so it should be possible to drill out a full-size hole without damaging the threads (or in the worse case, drill a plot hole from the outside of the vessel and a full-size hole from the inside).

This would result n a hole matching the OD of the 1/4" pipe (closer to 1/2") but probably better that than having trapped fluid.

I suppose another idea could be to weld on a compression nut facing out - you could then drill out a precise 1/4" hole (tube OD), thread in a 1/4" compression-to-compression coupler, and you would be golden.

Has anyone tried this? Any reason it would not work? Are the threads on a compression nut so fragile that they would be damaged from soldering?

-fafrd
 
I think you are making things more difficult than they have to be - if you are planning on soldering anyway, just use a welding spud.
Perfect for "one-sided" connections like a temp probe - and they don't require a dimple.
 
Thanks Dustbow - I have not used any of these fittings before, so if a welding spud will work well for a temp probe and is easier because no dimple is needed, that is all I need to hear. I am trying to avoid to avoid any protrusion into the vessel cavity so I need a spud that has a nipple/protrusion no thicker that the keg wall thickness - where can I find these (the 'full height' spuds appear to have a 1/4" nipple/protrusion, so I will want 'low height' stainless spuds with only a 1/8" nipple/protrusion)??

-fafrd
 
I've been having more fun soldering stuff with my Staybrite. This time I soldered stainless pipe thread joints from the inside to get a semi-sanitary seal. I created a new thread, take a look, but I figured I'd mention it here in this legendary thread of all things stainless steel soldering.
 
Ok I got all the parts in to start learning how to solder these fittings (minus the solder/flux). I used a greenlee 1/2" conduit punch then I used my dimple tool. I'm going to post some pics to let everyone see and make sure I am doing this correctly. I am testing on an old sanke lid so I am not 100% sure the fitting is going through straight. Any advice on how to keep the fitting straight? I also didn't sand/deburr the hole so it scratched up the outside of the fitting pretty badly.

IMG_20130124_113159.jpg


IMG_20130124_113109.jpg


IMG_20130124_111622.jpg
 
If anyone is willing to sell their keg tool, I'd buy it ! I live in canada and mcmaster don't ship here so it's impossible for me to build one !
 
slakwhere said:
phil, i use my sight glass setup to thread into the fitting and pull the fitting till it's square.

Have any pictures? Thanks for the input, just want to visualize your set up better.
 
i dont' have any pics of that process. basically i pulled the fitting through the dimple, then before applying flux/solder i attached the exterior device (ball valve, sight glass, heat element) i was going to use. i pull/push/twist on the fitting until it seems straight in the keg using that fitting, and then remove the exterior device carefully, apply flux/solder and add heat.

make sense?
 
slakwhere said:
i dont' have any pics of that process. basically i pulled the fitting through the dimple, then before applying flux/solder i attached the exterior device (ball valve, sight glass, heat element) i was going to use. i pull/push/twist on the fitting until it seems straight in the keg using that fitting, and then remove the exterior device carefully, apply flux/solder and add heat.

make sense?

Yea I figured that's what you meant. Thanks for clearing it up.
 
If anyone is wondering (I know I was before doing this) here's a couple things I have learned from soldering my kegs:


  • You can make a nippling tool by tightening a coupler on the end of a bolt with some washers and nuts, putting the bolt in a drill press, and using an angle grinder with a grinding wheel to make the coupler into a cone (while its spinning in the drill press).
  • You can pull the tool into the keg with no problems making the valley, and the solder on the outside, not the inside.
  • Three rings of solder from the harris stay brite flux and solder kit is the perfect amount to make a nice bead of solder in the valley.
  • With two of the stay brite liquid flux and soldering kits you have the perfect, to the mm, amount of solder to put three rings of solder on a total of 14 fittings including:
    10 - 1/2" Couplers
    2 - 1/4" couplers for sight glasses
    2 - 1" NPT welding spuds for heating elements
  • You can successfully solder with an oxy-acetylene torch, just make sure you have a nice long inner flame, heat the fitting about 80% of the time and the keg 20% of the time with the outer flame only and never stop moving the torch.
  • Leave the keg level until the solder has completely cooled, even if it looks solidified, it can still run and will pool on one side if you rotate the keg to work on the next fitting.
  • Screw your fittings together and mark what side of the coupler should be up for your valves to be in the right orientation after you solder it. You should also give yourself about a 1/4 to a 1/2 turn extra to tighten it

Thanks for all that have come before me, this is much better than the weldless variety.

Alex.
 
Couple of questions...

1. Is a jewelers torch a better fit to use for this application, like this one? http://www.amazon.com/dp/B000VML7KO/?tag=skimlinks_replacement-20

2. I have weldless fittings now and was hoping to repurpose them by soldering them in. Being weldless they are FNPT. Is there any reason I wouldn't or shouldn't just use the FNPT so I can thread a ball valve on from the outside and a coupler on the inside?
 
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