The one point you left out that I think you should have mentioned regarding fillet weld sizes. You mentioned that the fillet should be at least thick as the thinnest material. What also is good to know is that if the joint is welded from both sides, then the size of the fillet weld only needs to be half the thickness of the thinnest material. Providing it’s welded from both sides. For example, you’re welding a T-joint with 1/2” material. The fillet weld only needs to be 1/4” on both sides. Both together equaling the 1/2” plate thickness. I just happened upon your channel. It’s good to see good advice being handed to those looking to learn. A resource like this would have been great when I was attending trade school or during my apprenticeship. Nice job
Where’d you get that information. I’ve heard that if you can’t get to both sides, you double T when determining the formula. Obviously depends on codes and material.
Those are some satisfying fillets man. I've ran a lot of fillets in all three positions - lots of .035 er70s6 with a CO2 bottle for short circuit and an Ar/CO2/OX mix for spray transfer. Easily my favorite type of weld to perform. I have had to use my 1" fillet gauge once. It was on 1" thick material that was also specified full penetration for the stiffening plate that I was welding into the chunkiest S beam that I have seen in my life. This was doubled ~10" below with another full pen 1" thick stiffening plate There were two additional stiffeners as well that formed a longitudinally divided box, 1/2" plate. These received the smallest fillets at 1/2" This was all mirrored on the other side. To this day I have no idea what that column supported. It weighed close to three tons, was maybe 12' long. I guess what I'm rambling towards is that you might actually end up using that 1" gauge someday! Should have mentioned, that machine has got the guts to spray if you give it the right gas! Not as much spatter as I would have thought. Was that 75CO2/25Ar? Great video!
@@austinhargett5792 Thought so, probably why the globular transfer at the end had less spatter than I expected. This is an interesting result to me. I'll have to look over which positions and situations globular transfer is pre-certified for. If it is similar to spray transfer the addition of argon to control spatter might push electrode efficiency up enough to offset the cost of the argon. Time to get out the AWS manuals. Thanks again for the video, observations, and idea.
Thanks for some useful information on the weld cymbals. As for the 4 inch pitch, surely it’s easier to mark 0,4,8 etc and mark 2 inches ahead of each position as you go. I’m in the UK and use metric, I do lots of stitch welding every 100mm, miss 100mm. It’s so easy to put down marks every 100mm (4inches) with a metric tape measure down a 5 metre (16 foot) beam for example.🇬🇧 Edit, I’ve programmed my brain to remember, when the weld symbol is on top, it means over the top of the steel. As in the other side!
This is a timeless classic.... entertaining and well presented...!! Pls do a video showing the weld techniques used to achieve these jaw dropping examples... tnx
You said Pitch-Length at the beginning 😂had me confused for a few moments.Thank you sir for videos they are doing great things for our industry. Keep them coming.
Thanks very much. Even though I dont understand your inch measurements (you guys really should join the metric system…) the explenations of the weld symbols was very useful.
The one point you left out that I think you should have mentioned regarding fillet weld sizes.
You mentioned that the fillet should be at least thick as the thinnest material.
What also is good to know is that if the joint is welded from both sides, then the size of the fillet weld only needs to be half the thickness of the thinnest material. Providing it’s welded from both sides.
For example, you’re welding a T-joint with 1/2” material. The fillet weld only needs to be 1/4” on both sides. Both together equaling the 1/2” plate thickness.
I just happened upon your channel. It’s good to see good advice being handed to those looking to learn.
A resource like this would have been great when I was attending trade school or during my apprenticeship.
Nice job
Where’d you get that information. I’ve heard that if you can’t get to both sides, you double T when determining the formula. Obviously depends on codes and material.
You're an excellent instructor. Clear and concise without being dull
Means more than you know! ❤
ty
This video taught me more than 10 different videos, great job!
Those are some satisfying fillets man. I've ran a lot of fillets in all three positions - lots of .035 er70s6 with a CO2 bottle for short circuit and an Ar/CO2/OX mix for spray transfer. Easily my favorite type of weld to perform. I have had to use my 1" fillet gauge once. It was on 1" thick material that was also specified full penetration for the stiffening plate that I was welding into the chunkiest S beam that I have seen in my life. This was doubled ~10" below with another full pen 1" thick stiffening plate There were two additional stiffeners as well that formed a longitudinally divided box, 1/2" plate. These received the smallest fillets at 1/2" This was all mirrored on the other side.
To this day I have no idea what that column supported. It weighed close to three tons, was maybe 12' long.
I guess what I'm rambling towards is that you might actually end up using that 1" gauge someday!
Should have mentioned, that machine has got the guts to spray if you give it the right gas! Not as much spatter as I would have thought. Was that 75CO2/25Ar?
Great video!
😂🤔🤥🤥🤥
Haha that’s some heavy welding for sure! I’ve made some big ones on some vessels. And yeah that was just 75/25
@@austinhargett5792
Thought so, probably why the globular transfer at the end had less spatter than I expected. This is an interesting result to me. I'll have to look over which positions and situations globular transfer is pre-certified for. If it is similar to spray transfer the addition of argon to control spatter might push electrode efficiency up enough to offset the cost of the argon.
Time to get out the AWS manuals.
Thanks again for the video, observations, and idea.
I use the 1” fillet gauge pretty regularly. Welding 2” steel together.
Thanks for some useful information on the weld cymbals. As for the 4 inch pitch, surely it’s easier to mark 0,4,8 etc and mark 2 inches ahead of each position as you go. I’m in the UK and use metric, I do lots of stitch welding every 100mm, miss 100mm. It’s so easy to put down marks every 100mm (4inches) with a metric tape measure down a 5 metre (16 foot) beam for example.🇬🇧
Edit, I’ve programmed my brain to remember, when the weld symbol is on top, it means over the top of the steel. As in the other side!
Thanks for sharing that’s helpful!
This is a timeless classic.... entertaining and well presented...!!
Pls do a video showing the weld techniques used to achieve these jaw dropping examples... tnx
Thank you! We will have to put it in on the list!
You said Pitch-Length at the beginning 😂had me confused for a few moments.Thank you sir for videos they are doing great things for our industry. Keep them coming.
Haha yeah mixed em up at first. Good catch 😂
Great video. Where did you get shop chair at start of video? What is it and who makes it?
Home made! Should I make a video on the pieces? Pretty simple build
Thank you so much for all these insights!
You betcha!
Useful information
🤜🏼🤛🏼
Thanks very much. Even though I dont understand your inch measurements (you guys really should join the metric system…) the explenations of the weld symbols was very useful.
Thank you, maybe we will have to do a series in metric.
Awesome!
Great content! Keep it coming
Thank you! Will do!
I kinda want just a little bit of Bob Ross on each video now. Just a little.
😂😂 10-4
Would be nice
7/32
🔥👨🏾🏭🤙🏾
😁😁❤
👍👍
S