Never knew how much I actually needed a Chain-Chainmail blanket , Reduces my anxiety of from constantly thinking people with sword cannons are gonna get me in my sleep and doubles as a therapeutic weighted blanket. Can't thank you enough Cody, your doing Gods work.
That should actually be easier than you think. All he'd have to do is, neutralize the acid (and that might not even be necessary) then use the resulting liquid as an electro-plating solution. No need to extract the Zinc first.
I really appreciate that you haven't changed how you operate in these videos. Stripping zinc off a chain? No fancy vent hoods or anything just a bucket outside. Really makes me feel like I could do these projects and makes what you teach connect easier to me.
I think youre almost at a problem thats common in DIY and our society at large, we tend to think 'whats the best way to do this?' and the restrict ourselves to doing just that without considering there is probably a much more accesible, less resource intensive and cheaper way of doing something.
The problem is the people who make these videos are usually highly educated in the field and know how to do it safely. Even if it looks like they're doing it in their back yard. Many things aren't explained because it's not entertaining or they do it subconsciously. This video is more on the side of doable though.
I should add, you can do pretty much anything at home that's where most of this stuff was invented but definitely do independent research. Make sure what you're doing is safety, learn how to dispose of chemicals properly, and make sure you have multiple sources outside of just RUclips videos.
Codys Lab is the best youtube channel, especially among the makers. I love how he just does whatever he wants, its always informative and fun to watch, and there's never any filler or clickbait. And he's just an awesome person. Thank you Cody for all the great content over the years, I will always look forward to your videos.
I have to admit that I sometimes don't understand half what he's talking about. But for about 10 years I'm enjoying these videos like no other. They leave you with a special feeling behind.
Imagine being in the same state as Cody and wanting to get some 2/0 chain “Damn this Walmart is sold out, maybe I’ll try this other one” “Them too? Damn lemme try another” 10 Walmarts later “What the fuck, who is buying all this chain”
Need to put a cloth backing on it though for sure, chainmail loves to pinch ya. Most weighted blankets I've had use steel shot. This one might end up a bit too heavy to be safe lol
When Iron is heated it's grains takes on a variety of crystal structures at different temperatures, if allowed to cool slowly (annealing) the metal reverts back into it's plastic pliable form, when heated and quenched suddenly it locks the iron into what's called face-centered cubic lattice locking all the atoms in place making the metal harder.
Yes, but actually no. It's not getting locked into face-centered structure, you only need that because of its higher solubility for carbon in that structure. You can tell from hardened and tempered steel being magnetic, while the face-centered structure is non-magnetic (see stainless steel with high nickel content).
1. Heat steel above certain temperature 2. Steel becomes austenitic (face centered), which has high carbon uptake 3. Quench 4. Iron rapidly reverts to body centered crystal structure which has lower carbon uptake 5. Carbon atoms don't have enough time to diffuse out of the crystals since diffusion is a rate and temperature dependent process 6. Carbon is forced to stay inside of the body centered crystals and creates compressive stresses, which increases hardness
Hey Cody, when you're quenching the material, it's better to move it up and down in the water, because if you just place it in the water bath the immediate liquid around the hot metal will create a bubble of vapor around it which will prevent the water from being as effective as it should quenching the material. This is what many smiths are taught, so if you watch videos of them forging things, this is why they sort of bob the material in the quench bath.
This is far more of an issue for an oil quench than a water quench. Yes, the steam jacket forms in both quenching media, but water vapor is still very heat conductive, and will therefore still cool the metal quickly. The Grossmann H-Value (a measure of quenching intensity) for water without agitation is 1.0, while the same for oil without agitation is 0.25. An oil quench with violent agitation (which is beyond what most smiths will ever do, and probably impossible to even achieve with a workpiece as large as the one Cody was working with here) is around 0.8 to 1.10, which means that the highest cooling rate possible with oil is roughly equivalent to the cooling rate of water with zero agitation. Extrapolating this principle, an oil quench with moderate agitation (which is what most smiths will use), with an H value of 0.4 or so, produces significantly slower cooling when compared to a non-agitated water quench. Moreover, using water AND moderate agitation produces an H-value of 1.3, while strong agitation has an H-value of 2.0, and violent agitation can get all the way up to 4.0 - all of these options cool the steel far faster than oil ever could, and thus the more you agitate in water, the more likely you are to risk shattering your workpiece.
I'd argue your metallurgy isn't 100% sound but your concepts are right. In short, while carbon molecules are relevant, tempering an annealing has more to do with the alignment of crystals in the metal matrix. When metal is hot, crystals align themselves with each other. When cooled slowly the crystals can form or settle in a random configuration. When metal is cooled quickly, the crystals are all remain aligned making them strong. Cooling in Water can be problematic compared with cooling in oil. But it can be done and without a doubt the additional annealing worked great for chain mail armour. Great Video.
Chainmail binding is so therapeutic. Like sit in a sofa with a bucket on your left, bucket on your right and just adding bit by bit. It's fun. Better than TV, that's for sure.
Cody's Lab. The channel where you can find pilot mars experiments that help NASA. And medival chain mail all in one place. I love this channel, Cody you've taught me a lot about chemistry and industrialization. And I wanted to say thank you for always making videos about stuff that you like, instead of trying to appease the youtube algorithm. Keep doing what you love
Well, this is pretty much how anthropologists and archeologists identify where the smith's house of a settlement was. The soil samples and residue metals, coal, slag, etc.
@@michaelroberts1064 Yep, that appeared to be standard oxyacetylene welding. The torch melts the base metal and the rod provides filler. The burning gas produces carbon dioxide that provides some shielding to reduce oxidation. It's a fun process, quiet and calm, but not quite as clean as TIG.
@@dave7038 thanks for the explanation. there's a lot i don't know about tools and how to make things, but i'd really like to learn more, and i appreciate it when others share their knowledge.
If you ever want to do something similar to torch welding but don't have access to a torch and gas bottles, you can do something similar with an AC arc welder if you make a holder for a couple of carbon rods called an arc torch. Generating an arc between the two rods will produce a sort of flame that can heat metal without consuming an electrode or creating a deposit like stick welding. I've done that myself, and while it is less controlled than using oxyacetylene, it is great for doing torch style welding or for heating up metal to red hot. I bent a piece of cast iron using my home made carbon arc torch.
@@Ydnar1155 if i remember correctly he did monetize his channel at some point long ago but youtube seemed to absolutely hate his guts back in those days, constantly demonetizing, age restricting and sometimes even deleting his videos. at some point, probably during the ad-pocalypse, he just stopped trying to monetize his video probably becose it wasnt worth his time to try to make everything ad friendly just to still get demonetized for no reason. he might not even have reactivated ads, the ad PG-Shaun saw might be placed there by youtube and not cody, and if thats the case he does not get ad revenue from it, youtube takes it all. now he makes his own money with sponsors and patreon and thats much better than having to deal with adsense's tomfoolery for an income
I'd have put one arm of the bolt cutters in a vice with the other arm upward when cutting the links. This would eliminate the unsteadiness of the bolt cutter, reducing the risk of injury.
You can also make a ribbon of Euro 4 in 1 by twisting the 2 in 1 chain until it binds and then linking open rings through the top or bottom (whichever side is lacking the rings in the binding pattern.) Could help save time in future endeavors, since you wouldn't have to cut and reweave so many rings.
Not sure what you mean about twisting the chain, but he definitely could have reduced the weaving/welding time if he left 2/3 of the chains intact. (Not that the actual weaving was the time consuming part here.) Instead of opening 50% of the links, he could've only opened 33% of the links, reducing the amount of welding by a third.
@elongated_muskrat_is_my_name No. Instead, it would form the bottom and center of a single ribbon of mail. It's hard to explain in the context of a comment, as it involves some visuals. I might make a video on it sometime.
11:00 cavemen used to cook like this before they invented containers that can be used to boil the water directly. they heated rocks in a fire and placed it in thier water to boil it. when i saw the amount of water compared to the amount of steel i expected it to violently boil for quite a while
On the plus side...you would never really need to make like, thousands at once. Most likely blacksmiths/armoursmiths just made square patches like Cody did in between jobs, keeping themselves busy, and building up a supply to make a chain hauberk or shirt much quicker than if they started from scratch when someone ordered one.
@@dposcuroPlus chain mail was super expensive, even after plate armor was invented. It would probably be akin to buying a car nowadays. You would be pretty well off selling one as a blacksmith. Most footmen relied on cheaper gambesons, which was much easier to produce and required no smithing.
Oh this was a collab with the Waterjet Channel too?! Nice! Was that your initiative or theirs? Either way, great to see that things are looking up for you again!
Heat treat furnace operator and materials lab tech checking in! the decarburization you're describing is actually happening in your furnace during the high heat stage because of the uncontrolled atmosphere in your furnace, the carbon on the surface of the steel, usually in the first few thousandths of an inch, reacts with Oxygen in the atmosphere and draws carbon out of the steel. The quench you use isn't affecting how much carbon is retained in the material so much since it started decarbing the second it got above 1000 degrees or so. When you heat treat carbon seel, the resulting hardness isn't a product of losing/retaining carbon in the material, Rather the iron and other carbides in the steel form a different crystal lattice around the carbon in the steel at different temperatures, and the speed at which you cool the material will actually "lock" those structures into place. The slow cooling of an anneal process yields a long, large crystal structure, known as pearlite which results in a more ductile material. When you quenched the links back into the water from high heat, you aren't locking carbon into the material, rather transforming the grain structure from what's called austenite at that high critical temperature, to what's called Martensite, which is the grain structure of all quenched-and-temper steels after heat treating. Let's talk Austenite for a second! This is the crystal structure of any carbon steel alloy at its critical temperature. It's the smallest grain size and is also the most hard/brittle, and is often retained in pockets throughout the material in the quench, which causes stresses in the material which causes distortion/cracking. When you do the temper, you help transform the pockets of retained Austenite into Martensite, thus a more homogeneous grain structure and distribution of carbides and carbon in the iron solution. If you were to take one of your quench and tempered links and ground into them gradually, I'm sure you will find that they actually get harder and harder as you remove the decarbed material on the surface and made it down to that sweet sweet martensitic goodness underneath! The shapes of the crystal lattices are base centered cubics, face centered cubics and face centered tetragonal and the amount of iron atoms in each one changes as the material moves from room temp up to high heat and back to room temp either by way of a fast quench or the slow cool. Thanks for being you and putting in the work to share all of your amazing projects with all of us! And let me know if you'd like to get some of the things you've heard treated under a microscope to see how you did on your quench and temper!
For the love of god, people. If anyone tests chainmail, put padding under it. You never wear chainmail without padding. It is both for comfort, and is also an integral part of the defense.
Silks were used to fret arrow heads where weight considerations forced looser weaves. Still, almost always cotton pads for cooling comfort and shock absorption.
@@johnbennett1465 Probably for monetary reason. I guess some people could either afford a gambeson, or a chainmail, and had to choose. I'd go for the chain as well. Sure I might get pinched and bruised, but at least I won't get stabbed or slashed.
Before I ever paint galvanized steel I always swab the surface with a HCL moistened rag for proper paint adhesion. Hardened and high carbon steel rusts slowly. 1005/1020 steel, CRCQ steel & low carbon steel will rust quickly. The chain mail skirt on my suit of armour has flat links probably so the weld joint is over-lapped, heated, & pounded to fuse the joined ends together. Back then there was no oxy-acetylene torch & filler rod to weld links together. I would never have the patience to make chain mail. With that said I commend Cody for doing all the work on this video.
this channel is my alltime favourite no matter how i may change i think i’ll allways whatch these videos, thanks for all the great stuff cody! ❤ edit: the chain chainmail looks great!
If you're in an environment where chainmail is a tactical advantage you definitely want to be known as The Black Knight. Notoriety gives you a +2 AC against attacks by weapons from the Ancients like the dreaded AR-15.
I once tried to make chain maille from 6ga galvanized wire. Links were about 1.5" and making and cutting the coils quickly proved more effort than it could possibly be worth
Make friends with problem solvers. They complain less and find solutions to problems or answers to questions, instead of sitting there complaining that life isn't fair. Cody's an absolute unit. Great video, as always.
love ur videos only 1 question tho why did u go to walmart for chain why not a hardware store u prob paid 2 or 3 times more then u should have for it would have been cheaper at a hardware store buying in bulk
Mail means 'Chain' so most people are mistaken when they call it 'chainmail', that's like calling it 'Chain Chain', but yours is actually made from chain so it's probably the first true Chainmail or Chain Chain.
4:01 the term you are looking for is anneal. Annealing the steel is the process of heating, then slow cooling, to make it more malleable and thus easier to work with.
My fiance and i watch you all the time Cody. Your patience and perseverance is amazing and inspiring. We love you! As you always have, never change and always be you! You are the best part of humanity!
@codys Lab Someone commented on a different video. Thought I would re- type/post it. I wanted Cody from Cody's lab to DIY a mercury scope with all that mercury he's got. Shouldn't be too hard for him. Neat video. I too would like to see him spin some mercury into a mirrored finish for a telescope!! You can do it Cody! You can do it all nite long!!! We're with you in spirit man!!
I put anything zinc coated in regular vinegar. Then I dump it in a baking soda water solution to stop the rusting process and the iron is as is. I do the same to remove mill scale on regular steel from the local shop.
I used to make chainmaille, but I never thought of using chain to make it. The aspect ratio of the chain looked perfect for 4 into 1 European, and the welding looked spot on. Now that you have made chainmaille using comically oversize links, would be awesome to see chainmaille made out of comically tiny links.
Here I am trying to figure out how to add nitrogen to the Kiln with positive pressure for removing oxygen and Cody is like " I just throw wood into it to burn out the oxygen" Simple is genius.
It's interesting to watch someone else's technique, I usually make a long "string" of 4-in-1 and then build whatever shape I need out of that. almost like knitting.
If you want the iron not to rust after the zinc stripping you can dip it in some alkaline solution ( litte bit of lye or baking soda in water) and it will prevent some corrosion for a shorter while
7:22 this reminds me of the aesthetic of electron microscope images AND pencil drawings it's just so perfectly complete grayscale, with the darkest color being graphite grey.
Made some 14 gauge stuff for myself and my friends back in the mid 90's for Faire. Full shirt and coif for myself, shirt for one friend, vests for another friend and his wife with hers being 16 gauge. All from galvanized wire. Cleaned out the inventory of most of the OSH's in LA county. Interesting learning experience. Had blisters on my blistered blisters making that first shirt.
Fun fact this is called Annealing. Which is a heat treatment process that changes the physical and sometimes also the chemical properties of a material to increase ductility and reduce the hardness to make it more workable. you can put hot material in cat litter to slowly cool if you wish to contine to use the oven.
Ok. Now make it from mail
I can make you an email chain
agreed just send it
Then make mail, from chainmail
Perhaps a chain letter
Plenty of material if ya stop paying student loans.
Never knew how much I actually needed a Chain-Chainmail blanket , Reduces my anxiety of from constantly thinking people with sword cannons are gonna get me in my sleep and doubles as a therapeutic weighted blanket.
Can't thank you enough Cody, your doing Gods work.
Now extract the zinc from the acid and put it back on the chain
"Can you take the stain of this shirt and put it on that one? "
@@nobodynoone2500 lol I wouldn’t say shiny good looking zinc that prevents rust is a stain but you do you
That should actually be easier than you think.
All he'd have to do is, neutralize the acid (and that might not even be necessary) then use the resulting liquid as an electro-plating solution.
No need to extract the Zinc first.
Extract the Zinc from my cHiCkEn SoUp 🙃
@@jacefritzler5192 sounded like some kind of a joke to me
This looks like so many hours of work lol. Thanks for letting us torture test it😏
Cody is more about the process, WaterjetChannel is more about the spectacle.. perfect collab! Love it! 😄
This is getting out of hand, now there's 3 of us Cody's.
I really appreciate that you haven't changed how you operate in these videos. Stripping zinc off a chain? No fancy vent hoods or anything just a bucket outside. Really makes me feel like I could do these projects and makes what you teach connect easier to me.
I think youre almost at a problem thats common in DIY and our society at large, we tend to think 'whats the best way to do this?' and the restrict ourselves to doing just that without considering there is probably a much more accesible, less resource intensive and cheaper way of doing something.
The problem is the people who make these videos are usually highly educated in the field and know how to do it safely. Even if it looks like they're doing it in their back yard. Many things aren't explained because it's not entertaining or they do it subconsciously. This video is more on the side of doable though.
It’s people like you that are the problem. “I could do this!” 🙄
I should add, you can do pretty much anything at home that's where most of this stuff was invented but definitely do independent research. Make sure what you're doing is safety, learn how to dispose of chemicals properly, and make sure you have multiple sources outside of just RUclips videos.
That Mail would rip the mountings out before it failed Structurally. Well Done, Cody.😮😊
"Of COURSE... that zinc coating is gonna HAVE to come off".
Classic Cody.
What do you mean
anyone else irrationally hate zinc in general? like it's even the worst tasting thing ever
@@Beardqt no
@@GaiusCaligula234 ok sorry
@@Beardqt I like Zinc, it's like a weird uncle to the ferrous metals.
i gotta admit the idea of a chailmail doormat would be kinda awesome for a workshop
Welcoming or terrifying? You decide!
Worlds most durable doormat 💪🏽
i have definitely seen those before. Prbly smaller links though.
@@Broockle yup. including as mud flaps.
I have seen ones that are hard rubber and chain mail. Cleans dirty boots with every step.
Codys Lab is the best youtube channel, especially among the makers. I love how he just does whatever he wants, its always informative and fun to watch, and there's never any filler or clickbait. And he's just an awesome person. Thank you Cody for all the great content over the years, I will always look forward to your videos.
I have to admit that I sometimes don't understand half what he's talking about. But for about 10 years I'm enjoying these videos like no other. They leave you with a special feeling behind.
Very True!
couldn't agree more
Cleaning out all Walmarts in the state of chain? Already a great start
The State of Chain is the best place in the USA and you cannot prove otherwise
Imagine being in the same state as Cody and wanting to get some 2/0 chain
“Damn this Walmart is sold out, maybe I’ll try this other one”
“Them too? Damn lemme try another”
10 Walmarts later
“What the fuck, who is buying all this chain”
@sketchy1018 why didn't he try harbor freight? 😮
@@sketchy1018 Its the new toilet paper
I'd be a bit surprised if Cody isn't on a watchlist by now.
Oh man that looks like the best weighted blanket ever
Need to put a cloth backing on it though for sure, chainmail loves to pinch ya. Most weighted blankets I've had use steel shot. This one might end up a bit too heavy to be safe lol
@@whatbroicanhave50character35 The only weighted blanket youll need for the rest of your life 😅
When Iron is heated it's grains takes on a variety of crystal structures at different temperatures, if allowed to cool slowly (annealing) the metal reverts back into it's plastic pliable form, when heated and quenched suddenly it locks the iron into what's called face-centered cubic lattice locking all the atoms in place making the metal harder.
Yes, but actually no. It's not getting locked into face-centered structure, you only need that because of its higher solubility for carbon in that structure. You can tell from hardened and tempered steel being magnetic, while the face-centered structure is non-magnetic (see stainless steel with high nickel content).
I need to learn this sacred science...
Haha. It's cool that i've just learned these fancy words recently on university.
@@AdventuresOfKeithius Take some Materials Science course :)
1. Heat steel above certain temperature
2. Steel becomes austenitic (face centered), which has high carbon uptake
3. Quench
4. Iron rapidly reverts to body centered crystal structure which has lower carbon uptake
5. Carbon atoms don't have enough time to diffuse out of the crystals since diffusion is a rate and temperature dependent process
6. Carbon is forced to stay inside of the body centered crystals and creates compressive stresses, which increases hardness
id like to point out the marvel of insulation here, you have glowing red steel, and right next to it there is unmelted snow. its couple of cm
Hollywood: "Sliced through in 1 cut"
Reality: "Hacked and beaten to death by 100 hits over 7 hours"
This gave me an idea. Copper mail curtains, with a ground line to the curtain rod. Faraday drapes. Faradrapes.
Yes! I live in Detroit.. chain mail curtains will be great for drive bys!
😂@@scottshawn70
@@scottshawn70and for when the local junkies need some scrap copper for their fix.
@@ishnifusmeadle that's why you electrify it
Fara rape..uh...wait a minute
Hey Cody, when you're quenching the material, it's better to move it up and down in the water, because if you just place it in the water bath the immediate liquid around the hot metal will create a bubble of vapor around it which will prevent the water from being as effective as it should quenching the material. This is what many smiths are taught, so if you watch videos of them forging things, this is why they sort of bob the material in the quench bath.
I never knew that but that makes complete sense. Thanks for the advice
Would he pretty dangerous for him to hold onto it considering it was splattering boiling water all over.
I assume it would be hard since theres so much metal in this project
This is far more of an issue for an oil quench than a water quench. Yes, the steam jacket forms in both quenching media, but water vapor is still very heat conductive, and will therefore still cool the metal quickly. The Grossmann H-Value (a measure of quenching intensity) for water without agitation is 1.0, while the same for oil without agitation is 0.25. An oil quench with violent agitation (which is beyond what most smiths will ever do, and probably impossible to even achieve with a workpiece as large as the one Cody was working with here) is around 0.8 to 1.10, which means that the highest cooling rate possible with oil is roughly equivalent to the cooling rate of water with zero agitation. Extrapolating this principle, an oil quench with moderate agitation (which is what most smiths will use), with an H value of 0.4 or so, produces significantly slower cooling when compared to a non-agitated water quench.
Moreover, using water AND moderate agitation produces an H-value of 1.3, while strong agitation has an H-value of 2.0, and violent agitation can get all the way up to 4.0 - all of these options cool the steel far faster than oil ever could, and thus the more you agitate in water, the more likely you are to risk shattering your workpiece.
Yeah blacksmithing is hard.
I'd argue your metallurgy isn't 100% sound but your concepts are right. In short, while carbon molecules are relevant, tempering an annealing has more to do with the alignment of crystals in the metal matrix. When metal is hot, crystals align themselves with each other. When cooled slowly the crystals can form or settle in a random configuration. When metal is cooled quickly, the crystals are all remain aligned making them strong. Cooling in Water can be problematic compared with cooling in oil. But it can be done and without a doubt the additional annealing worked great for chain mail armour.
Great Video.
Chainmail binding is so therapeutic. Like sit in a sofa with a bucket on your left, bucket on your right and just adding bit by bit. It's fun. Better than TV, that's for sure.
Ive seen your channel commenting around for DECADES aserta lol. We are legends
Cody's Lab. The channel where you can find pilot mars experiments that help NASA. And medival chain mail all in one place. I love this channel, Cody you've taught me a lot about chemistry and industrialization. And I wanted to say thank you for always making videos about stuff that you like, instead of trying to appease the youtube algorithm. Keep doing what you love
Next video, Cody develops chain mail light enough to send to Mars.
Million years from now scientist could locate your house by detecting all those chemical trace in one location .
Cody’s properties could be declared a superfund site at this point
Even a couple of thousand years from now, Chickenhole Base is going to confuse the SHIT out of some archaeologists.
They will probably conclude it was evidence of aliens which explains most of man's 21st century advancement
"detecting trace amounts of everything but the kitchen sink"
Well, this is pretty much how anthropologists and archeologists identify where the smith's house of a settlement was. The soil samples and residue metals, coal, slag, etc.
That must have been so much work! Good job it looks awesome.
When I was learning welding they would always say that a correct weld is stronger than the rest of the metal!
Same with woodworking and wood glue
Pretty sure they didn't mean spot-welds..
Again, that weld is high carbon because co2 in air. As long as tempered, strongest part.
Oh, I was ref to the original chain..
@@Dr_Wrong Neither was I. 😊
I have zero doubt that Cody could survive in any post apocalypse setting
Put some aramid layers on both sides, and you have a nice frag-curtain for dangerous tests.
For when he‘s making explosives… again…😂
@@DryW4t3r Or, you know, distilling stuff like alkali metals. Or precious metals, they both give off lots of fumes that can boom.
Can I ask what aramid is? I know how to google, but I prefer lessons in "plenum. "
Welding with a torch and no gloves, what an old school king
Is this like stick welding just using a torch instead of a welder?
@@michaelroberts1064 Yep, that appeared to be standard oxyacetylene welding. The torch melts the base metal and the rod provides filler. The burning gas produces carbon dioxide that provides some shielding to reduce oxidation. It's a fun process, quiet and calm, but not quite as clean as TIG.
@@dave7038 thanks for the explanation. there's a lot i don't know about tools and how to make things, but i'd really like to learn more, and i appreciate it when others share their knowledge.
If you ever want to do something similar to torch welding but don't have access to a torch and gas bottles, you can do something similar with an AC arc welder if you make a holder for a couple of carbon rods called an arc torch. Generating an arc between the two rods will produce a sort of flame that can heat metal without consuming an electrode or creating a deposit like stick welding. I've done that myself, and while it is less controlled than using oxyacetylene, it is great for doing torch style welding or for heating up metal to red hot. I bent a piece of cast iron using my home made carbon arc torch.
Cody is the only creator where I'm happy to see ads
He remarked one time he wouldn't add ads in a relpy to my comment. I wonder how much $ he lost not taking advantage of his early videos?
@@Ydnar1155untill like November this year he had some massive drama with Google not paying him ad money. Could be related
@@Ydnar1155 if i remember correctly he did monetize his channel at some point long ago but youtube seemed to absolutely hate his guts back in those days, constantly demonetizing, age restricting and sometimes even deleting his videos.
at some point, probably during the ad-pocalypse, he just stopped trying to monetize his video probably becose it wasnt worth his time to try to make everything ad friendly just to still get demonetized for no reason.
he might not even have reactivated ads, the ad PG-Shaun saw might be placed there by youtube and not cody, and if thats the case he does not get ad revenue from it, youtube takes it all.
now he makes his own money with sponsors and patreon and thats much better than having to deal with adsense's tomfoolery for an income
What ads?
I meant pre-roll and post-roll ads. When he was demonized by RUclips that didn't happen
I'd have put one arm of the bolt cutters in a vice with the other arm upward when cutting the links. This would eliminate the unsteadiness of the bolt cutter, reducing the risk of injury.
You can also make a ribbon of Euro 4 in 1 by twisting the 2 in 1 chain until it binds and then linking open rings through the top or bottom (whichever side is lacking the rings in the binding pattern.) Could help save time in future endeavors, since you wouldn't have to cut and reweave so many rings.
Not sure what you mean about twisting the chain, but he definitely could have reduced the weaving/welding time if he left 2/3 of the chains intact. (Not that the actual weaving was the time consuming part here.) Instead of opening 50% of the links, he could've only opened 33% of the links, reducing the amount of welding by a third.
@@nikitanugent7165 I think we're talking about the same thing. But yes, weaving is certainly not the rate limiting step here.
would this make the diagonals of the kind of mail he's doing?
@elongated_muskrat_is_my_name No. Instead, it would form the bottom and center of a single ribbon of mail. It's hard to explain in the context of a comment, as it involves some visuals. I might make a video on it sometime.
11:00 cavemen used to cook like this before they invented containers that can be used to boil the water directly. they heated rocks in a fire and placed it in thier water to boil it.
when i saw the amount of water compared to the amount of steel i expected it to violently boil for quite a while
imagine the poor soul who had to make these for a whole army back in the day
Dude was probably just relieved that he didn't need to be IN the army.
On the plus side...you would never really need to make like, thousands at once. Most likely blacksmiths/armoursmiths just made square patches like Cody did in between jobs, keeping themselves busy, and building up a supply to make a chain hauberk or shirt much quicker than if they started from scratch when someone ordered one.
That's what apprentices are for
@@dposcuroPlus chain mail was super expensive, even after plate armor was invented. It would probably be akin to buying a car nowadays. You would be pretty well off selling one as a blacksmith. Most footmen relied on cheaper gambesons, which was much easier to produce and required no smithing.
@@andresvalverde5182 expensive to make but also very recyclable and reusable, which makes it likely to be in a large supply which lowers the cost
thats actually an impressive amount of work for linking chains together
Soo much time and effort I'd imagine
Chain mail screams "I have nothing but time on my hands."
Well, time and many many metal rings
Nice Iron Curtain, Cody 😂
Oh this was a collab with the Waterjet Channel too?! Nice! Was that your initiative or theirs? Either way, great to see that things are looking up for you again!
Invest in a head camera. I enjoy the 1 handed working but you seem to struggle more than you need to 😊
No. Cody must have the best science and the worst camera work.
@@the_newt_nest😂😅😁
Head movements for camera might cause nausea for the viewers.
@@priyanshugoel3030invest in an gyro
Heat treat furnace operator and materials lab tech checking in! the decarburization you're describing is actually happening in your furnace during the high heat stage because of the uncontrolled atmosphere in your furnace, the carbon on the surface of the steel, usually in the first few thousandths of an inch, reacts with Oxygen in the atmosphere and draws carbon out of the steel. The quench you use isn't affecting how much carbon is retained in the material so much since it started decarbing the second it got above 1000 degrees or so.
When you heat treat carbon seel, the resulting hardness isn't a product of losing/retaining carbon in the material, Rather the iron and other carbides in the steel form a different crystal lattice around the carbon in the steel at different temperatures, and the speed at which you cool the material will actually "lock" those structures into place. The slow cooling of an anneal process yields a long, large crystal structure, known as pearlite which results in a more ductile material.
When you quenched the links back into the water from high heat, you aren't locking carbon into the material, rather transforming the grain structure from what's called austenite at that high critical temperature, to what's called Martensite, which is the grain structure of all quenched-and-temper steels after heat treating.
Let's talk Austenite for a second! This is the crystal structure of any carbon steel alloy at its critical temperature. It's the smallest grain size and is also the most hard/brittle, and is often retained in pockets throughout the material in the quench, which causes stresses in the material which causes distortion/cracking.
When you do the temper, you help transform the pockets of retained Austenite into Martensite, thus a more homogeneous grain structure and distribution of carbides and carbon in the iron solution.
If you were to take one of your quench and tempered links and ground into them gradually, I'm sure you will find that they actually get harder and harder as you remove the decarbed material on the surface and made it down to that sweet sweet martensitic goodness underneath!
The shapes of the crystal lattices are base centered cubics, face centered cubics and face centered tetragonal and the amount of iron atoms in each one changes as the material moves from room temp up to high heat and back to room temp either by way of a fast quench or the slow cool.
Thanks for being you and putting in the work to share all of your amazing projects with all of us! And let me know if you'd like to get some of the things you've heard treated under a microscope to see how you did on your quench and temper!
As a material science student, I approve this statement.
Assistant: and how many boxes of chain would you like sir?
Cody: Yes
Cody is the man from the math text books
thank you for not changing what youre doing cody. Youve been teaching me for a decade at this point and im glad youre still doing the same thing
Unexpected collaboration.
So happy for more CL videos.
I love that last clip "No way Cody!"
@@Tb0n3that’s me haha
Great video. This brings me back to the og chainmail videos
You can just leave the chain in a bucket of vinegar to strip it. Takes a day or 3, and be sure to move the chain arouind a couple times.
Potato patahto, vinegar is just dilute acetic acid. It'll just take a lot longer than hydrochloric.
For the love of god, people. If anyone tests chainmail, put padding under it. You never wear chainmail without padding. It is both for comfort, and is also an integral part of the defense.
yeah, but tits under chainmail is a V I B E
What you say makes sense. It is just that historically chain was used over normal clothing in some times and places. I don't know why.
Did you forget where you are?
Silks were used to fret arrow heads where weight considerations forced looser weaves. Still, almost always cotton pads for cooling comfort and shock absorption.
@@johnbennett1465 Probably for monetary reason.
I guess some people could either afford a gambeson, or a chainmail, and had to choose.
I'd go for the chain as well. Sure I might get pinched and bruised, but at least I won't get stabbed or slashed.
Next video: "Making a powered exoskeleton to wear my chainmail"
Before I ever paint galvanized steel I always swab the surface with a HCL moistened rag for proper paint adhesion. Hardened and high carbon steel rusts slowly. 1005/1020 steel, CRCQ steel & low carbon steel will rust quickly. The chain mail skirt on my suit of armour has flat links probably so the weld joint is over-lapped, heated, & pounded to fuse the joined ends together. Back then there was no oxy-acetylene torch & filler rod to weld links together. I would never have the patience to make chain mail. With that said I commend Cody for doing all the work on this video.
Did home depot call the cops on you when you bought 130lbs of chains, buckets, and gallons of HCL?!
The symmetrical patterns looks very satisfying. And man, you’ve done a lot of work for a video!
Nice to see a video that has the same feel as the good ol days😊
It's so fucking awesome to have you back at full strength, man! Love these videos.
Dont let anyone tell you Cody cant weld.
Maybe he can, but all I see here is brazing.
@nobodynoone2500 how so?
Ah yeah. Nothing says welcome quite like a rug of chain chainmail. Never change Cody, it's always a delight when you upload.
1:07 talk about chain reaction
Blacksmith here, get a forged anvil. Cast anvils have very poor rebound properties and can chip and shatter violently.
this channel is my alltime favourite no matter how i may change i think i’ll allways whatch these videos, thanks for all the great stuff cody! ❤
edit: the chain chainmail looks great!
you should try blacking it by intentionally coating it in a thin layer of rust then boiling it water for a few hours
If you're in an environment where chainmail is a tactical advantage you definitely want to be known as The Black Knight. Notoriety gives you a +2 AC against attacks by weapons from the Ancients like the dreaded AR-15.
@@user-qf6yt3id3wbetter to just make a plate cuirass, its lighter and more protective. Easier to colour too.
I missed your chainmail videos
I once tried to make chain maille from 6ga galvanized wire. Links were about 1.5" and making and cutting the coils quickly proved more effort than it could possibly be worth
Make friends with problem solvers. They complain less and find solutions to problems or answers to questions, instead of sitting there complaining that life isn't fair. Cody's an absolute unit. Great video, as always.
I don't know what I was expecting to come out of that air cannon, but it was NOT a sword.
Love all the chainmail vids!
Great work, what a huge amount of time spent on a "Just for fun" project!
Cody, your talent, determination, and dedication are truly an inspiration. Keep it up!
Like if you want Cody to be an Astronaut!
Love your smile and the glint in your eyes whenever you're working on a project
cody slab
It was helpful. I was just looking for a summer blanket.
the fbi must almost certainly think you're making a party favor with those boxes of chain
Really puts into perspective how much work medieval blacksmiths must’ve had to put on
love ur videos only 1 question tho why did u go to walmart for chain why not a hardware store u prob paid 2 or 3 times more then u should have for it would have been cheaper at a hardware store buying in bulk
It was better chain. 🤷♀️
Wal-Mart has better chain than hardware stores? Sounds like BS.
the audacity to say someone like cody is "bs'ing" 😂😂😂
@@Ac3Mustang Not saying that he is, just sounds like it. It's hard for me to believe that Wal-Mart is the best place to buy chain.
Every minute was a surprise! Each cut showed way more progress than I expected, all the way to a collab at the end! So cool.
Mail means 'Chain' so most people are mistaken when they call it 'chainmail', that's like calling it 'Chain Chain', but yours is actually made from chain so it's probably the first true Chainmail or Chain Chain.
@danward1070 - I think maille is more accurately translated as the french word for "mesh".
Afterwards, the chainmail could make a good catalytic converter guard for your truck.
4:01 the term you are looking for is anneal. Annealing the steel is the process of heating, then slow cooling, to make it more malleable and thus easier to work with.
I did not see that collab coming. I'm always here for Cody's Chainmail videos!
Crazy how good that looks after the heat treatments. It was all discolored and a little rusty in areas. Pretty cool stuff man.
My fiance and i watch you all the time Cody. Your patience and perseverance is amazing and inspiring. We love you! As you always have, never change and always be you! You are the best part of humanity!
@codys Lab
Someone commented on a different video. Thought I would re- type/post it.
I wanted Cody from Cody's lab to DIY a mercury scope with all that mercury he's got. Shouldn't be too hard for him. Neat video.
I too would like to see him spin some mercury into a mirrored finish for a telescope!!
You can do it Cody! You can do it all nite long!!! We're with you in spirit man!!
You’re by far my favorite RUclips content creator. Never stop doing what you love and showing it to the world, you’re amazing Cody!!
I put anything zinc coated in regular vinegar. Then I dump it in a baking soda water solution to stop the rusting process and the iron is as is. I do the same to remove mill scale on regular steel from the local shop.
I used to make chainmaille, but I never thought of using chain to make it.
The aspect ratio of the chain looked perfect for 4 into 1 European, and the welding looked spot on.
Now that you have made chainmaille using comically oversize links, would be awesome to see chainmaille made out of comically tiny links.
Final boss of weighted blankets
Here I am trying to figure out how to add nitrogen to the Kiln with positive pressure for removing oxygen and Cody is like " I just throw wood into it to burn out the oxygen" Simple is genius.
Patience of a f**cking saint. Nice work Cody.
It's interesting to watch someone else's technique, I usually make a long "string" of 4-in-1 and then build whatever shape I need out of that. almost like knitting.
If you want the iron not to rust after the zinc stripping you can dip it in some alkaline solution ( litte bit of lye or baking soda in water) and it will prevent some corrosion for a shorter while
All that hydrogen wasted without explosions!
Some Guy That Needs Chain For His Trailer Hitch: "WHAT THE ACTUAL F**K?!"
Not the collaboration I was expecting, but definitely the collaboration I needed. Very nice!
Cody is preparing for something only he knows about.
Great to see you and the waterjetchannel still hanging out and making colabs!
Coolest Mudd flaps on the highway.
Jimmy Diresta made chain from rebar, and Cody made chain mail from chain...the RUclips maker chain meta has officially begun.
You're a smart guy Cody thanks for the content!
7:22 this reminds me of the aesthetic of electron microscope images AND pencil drawings
it's just so perfectly complete grayscale, with the darkest color being graphite grey.
So glad you still make videos. Love your videos he had so much fun making them
Man it's so nice to have regular Cody uploads.
Cody is determined to be the most interesting man in any room he walks into. The kind of friend that everyone should have.
Now you may try making chainmail from chains made trom rebar.
Made some 14 gauge stuff for myself and my friends back in the mid 90's for Faire. Full shirt and coif for myself, shirt for one friend, vests for another friend and his wife with hers being 16 gauge. All from galvanized wire. Cleaned out the inventory of most of the OSH's in LA county. Interesting learning experience. Had blisters on my blistered blisters making that first shirt.
That’s so much work!! What a madman
Fun fact this is called Annealing. Which is a heat treatment process that changes the physical and sometimes also the chemical properties of a material to increase ductility and reduce the hardness to make it more workable. you can put hot material in cat litter to slowly cool if you wish to contine to use the oven.
Your oven has a very interesting life Cody.!