Can You Cast an Iron Sword?

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I've been studying melting & casting in preparation for starting up as a hobby, and I'll echo what others have said: you need an exit vent for your molds. The molten metal is hitting the trapped air and compressing it, which is stopping it from filling the mold. You're also getting a lot of steam explosions and spatter because there's too much moisture present; as BigStackD (another TH-camr you should check out if you want to look into casting) always warns his viewers, ALWAYS preheat your stirrers, skimmers, and molds to avoid this problem.

14:00 blade smiths don’t make mistakes; they just make shorter swords.

It looked like your casting molds didn’t have any gas spouts. Iron reacts violently with gasses that are in the air. Maybe if you added gas vents, then pumped a heavy, inert gas like argon into the mold it would work better.

1.) It's not hot enough, you need to get well above its melting point to ensure it flows into the mold properly
2.) the molds need to be vented in some way, the air inside them needs to go somewhere. The wet sand will hold its shape but it's not porous enough to allow natural venting
3.) the bubbling in the open molds is a result of the mold containing moisture. Even the smallest drop of moisture can result in a steam explosion that sprays molten metal all over and causes bubbles in the surface. Preheat your molds until dry whenever possible.

When your using the sand mould system you need to have a exit for the air to leave from

You should crest vent holes in the mold next time it didn’t want to flow because of trapped air and keep a propane or map gas torch with you so you can preheat the mold the piping and spattering was because of the presence of water it also help to preheat the mold to ensure a good flow and it doesn’t harden to quickly

The issue is mostly that they used rebar as the material to cast. Rebar is a mixed steel that is made from scraps and has TONS of impurities. It's only use is to reinforce concrete.
A cleaner steel with a flux introduced would not only have melted at a lower temperature, but also poured more smoothly and evenly.

I have the feeling that cast iron would be good for mass producing arrow heads.

Have you heard of a puddling furnace? They used to be the predominant method of the manufacturing of steel before the bessemer process

hey Andy. i did my capstone on ancient Chinese metallurgy and from my research, they got the metal hot enough to melt like in nate's modern foundry, but they next poured it into a refractory basin and added silt to the molten iron. this removed the impurities and when it hardened, it was pretty much "wrought iron" without the bloom. another option you could try is loading a crucible with alternating layers of wrought iron and cast iron, then heating it in a foundry for several hours as hot as you can. this will cause the two alloys to combine into one, making medium to high carbon steel. i hope this helps

With the understanding that the proper steel would require higher melting temperatures... why not try that? Would be more interesting, since I honestly don't know what to expect from a cast steel sword.

You may want to use two-piece molds and preheat them before pouring.
Also, the Primitive Technology channel has a couple videos about making primitive cement from wood ash. Mixing that cement with silicate sand might get you a concrete mix heat resistant enough to keep your furnace from melting, much like the plaster and sand mixes used by TKOR, Nighthawknlight, and others.

Man I’m so glad you’re with Nate from his channel and some of the king of random guy that I love to see

There was a continuous reference to cast iron, but it looked like the metal stock being fed in was rebar. This makes it cast steel, dirty cast steel, but still steel. Being steel it will have much better capability to be cast, then forged and heat treated to a useable blade.
The movies all show open casting, but not further working. We could assume they forged after the pour.
Worth trying again, but next time with a furnace that can at least get good heat into a reasonable amount of steel.

Pretty sure those film examples all state that they're steel not iron, but even so - great video!

They for got about the trapped air, a metal casting need two spouts or the trapped air would act like a stopper and cool of to fast

Both Good And Basic and NFTI!? This is amazing! Been waiting for some collabs with Nate, but bringing everyone into one video is awesome!!

Theres also heat treating. With heat treating you can make certain areas softer(spine) and other harder(cutting edge).

i think you should working with expert (like the beer episode), this has so much potential but ends up half assed, sorry to say this

That's great that you did a collab with Nate I can't wait to see his video he does some really great amazing stuff

I found it pretty interesting that the cast iron sword managed to get in a few whacks into the wood. Another thing to consider when it comes to casting metal such as bronze or cast iron is a process called work hardening. Cast metals are generally fairly pliable one cooled, but after the process of work hardening which is basically repeatedly hammer them to form, the metal get consolidated and becomes much stronger.
You actually see a similar process in movies where they cast the iron swords into their preform and then go through the arduous process of hammering them flat and refine the shape as well as heat treating and tempering. Maybe the next time you try your hand at casting another iron, you could apply some blade smithing techniques to see if you get better results.

So glad to see you collab with Nate. I discovered this channel when you did an episode of TKOR with Grant trying to make clear glass!

The melting dirt in your primitive furnace is causing the temperature to hold through the phase change (similar to boiling water in a rice pot). Finding a higher temperature clay mixture may be a critical next step.

7:40 I wonder if he preheated his mold? Oh. Oh no.

Awesome video, I'm going to have this video on tap for any future "BuT I kNoW tHeY dEfInItElY dId CaSt IrOn SwOrDs." conversation that I have :D
A minor correction: Cast iron =/= iron that was cast. Cast iron is a specific material, iron that was cast can be any kind of iron that you melted and poured into a mold. The act of casting doesn't necessarily result in a higher carbon content. It can, and for your primitive furnace attempt probably would have, but that would have been a function of the heating with charcoal, not the melting itself.
The reason you don't want to cast a sword is because of the poor grain structure that results from the process. You also wouldn't want to forge a sword from the material cast iron either though, because of the high carbon content which you mentioned in the video. The end result of both would likely be the same, a brittle sword, but the mechanisms by which they became brittle would be different.

awesome to see you working with Nate, between you channel and his they're my favorite channels for home diy projects

Glad you are continuing forward, love the videos as always!

amazing to see lost pla casting with cob!!! i wanted to do research about something like this, but it's mostly impractical to try and reinvent the wheel of ceramic shell casting, so there isn't much readily available info on it. you guys did great on this. casting iron in a homemade cupola is no mean feat!!! i think the only other cool thing you could consider is casting thin plate, heating it up, and allowing it to decarburize, as a source of cheap decent-quality wrought iron for tools and stuff. if you made it really thin and heated up below burning temperature, all the carbon and phosphorus and sulfur would burn off, and then folding it a few times would squeeze out most of the silicon impurities. if you add this essentially pure iron to a crucible with some pig iron in a controlled way, and allowed it to dissolve together in a cupola, you could make really nice modern quality steel. or potentially even make a rod-shaped crucible to make your own high quality steel that was cast round stock, with no forging needed (though this would be more difficult).

Glad to see Nate here too! Cool collaboration

I'd love to see the results of forging the cast iron sword. It should shed a lot of carbon during the forging process.
Personally I always considered the open faced molds to be for sword BLANKS, so cast then forged

I'm not sure what route you're going to take for steelmaking, whether you're going to go with refining iron blooms to steel (via secondary furnaces and/or selection of your pieces by carbon content and then pattern welding etc) or if you're going to jump straight to crucible steel.
However you could consider the less commonly known methods of decarburizing cast iron into steel which pre-date the bessemer process, which are the puddling furnace and it's more primitive predecessor the finery furnace (which is essentially just a hole in the ground). Both of these basically work by stirring cast iron so that oxygen can get into it to burn away excess carbon, leaving steel or iron after.
These methods are not seen much in pop-culture, since finery furnaces were mainly used in asia (and in fact there isn't much evidence of bloom steel ever being used in China), and didn't make their way over to europe until at least the 13th century.
As a result I haven't seen many videos of these processes online so it could be cool to have one of the only videos on the process, especially since all our modern processes are based on these (which is particularly good for the whole "making your way to modern technolgies" theme)

I really appreciate the effort, but I was shouting at the screen when I saw y'all trying to pour cast iron into unvented molds. With the cobb mold, I would have burned off the 3D print (lost PLA method) and poured the iron while the mold was still hot. Since you already have to model it up in CAD, oversize your print by about 1% to account for shrinkage as the molten cast iron cools down.
How's the new shop build going?

Perfect thumbnail throwback to the video I saw for weeks and didn't click but was so so so glad I did

I don't think any of the movies are using "cast iron" they're using iron/steel that's cast. Modern steel mills use molten steel cast all the time.
Plus all the films show them forging the swords next, they don't go from mold to battle immediately.

16:37 "It will keel"
Doug Marciada approves 😂

you HAVE to watch the australian film "the navigator" from the 80s. medieval men searching for help with the plague travel through time to present day, to CAST A CROSS. VERY cool portrayal of open face casting

Great to see Nate! Hope y'all work together again

An interesting related line of research may be a wind-fanned forge. Seems there are locations in Europe that used either coastal ledges or bluffs or slopes on the side of a valley that take advantage of natural wind conditions to fan the firing of the furnaces. There would be scoop-like structures built that would channel the prevailing wind that hits a rock face into one of the lower chambers where the firing was done. It may be one of the possible ways they got stuff like crucible steel, as it would take much less human effort to sustain higher temperatures. Not sure how you'd recreate that, since having an effective setup seemed to be highly location dependent with a consistent and somewhat sustained dry wind.
As far as casting a more steel-like iron... Might be some hybrid processes? An initial casting and then hammering out while red hot. (Some aspects of forging, but perhaps not as intensive? It would help with voids/cracking, but less actual forming of the material.) The main thing to make something like that strong would be the tempering/annealing process.

I want to make a joke with ''Amen gas'' and holy farts but I will abstain

My mom used to make jewelry with cast gold and silver. The molds were always heated in the kiln to a temperature close to the mountain metal. This kept the metal flowing into the most delicate nooks and crannies of the mold. The mold was made with wax. Hope this helps

I suggest making your own bricks at this point. You've gotten far enough with technology to actually do it and the bricks will be able to sustain a higher temperature for the forge.

Honestly? Cast iron might be more appropriate for a spearpoint or arrow point, IOW something semi disposable.

I would love to see more woodworking projects, maybe a wood lathe??

I always love these forging and smelting videos. Baffles me to think how HARD this was in the past. No wonder it took 2 million years (counting non-homo sapiens) to go from stone to steel.

Ive been a og fan and i forgot the name of your channel because my phone broke like 5 months ago and i got a new one and thw whole of last week ive been trying to find your channel until i searched up how to everything youtube thaught that was close enough and brought me to your channel thank god ❤✨

I feel like a cast iron spearhead would would really well. Since the stabbing would be a compression force vs the force of slashing with a sword that made it snap

Well, that was fun seeing Nate make a surprise appearance!

If this has not been brought up already,
In defense of the Lord of the Rings sword casting scene at the beginning, the weapons and warfare book explains that the resultant swords are meant to be mass produced for Saruman's Uruk-Kai.
There was a hook at the end, meant to help dismount riders from horses, which was helpful against rohan who focused on mounted troops.
Only one side was sharped, making them more like cleavers, and made them quick to produce.
The swords were meant to fulfill what was needed and no more.
They were cheap quickly made swords, again described in the weapons and warfare book as being basically raw metal ingots with handles.

The thing that most fantasy shows don't include is the amount of enchantment that goes into legendary and mythic weapons. Enchanted materials, enchanted fire, enchantments on the tools, the shop, the smith, and prayers to many gods.

I believe the fictional depictions generally cast then forge the casting.
Also you should preheat/burn out your molds to drive out the moisture and reduce mold disintegration before casting.

Love your historic wepons and your videos

They appeared to not be putting vent holes in the mould. So the air can be displaced and allow hot melt metal to completely fill the cavity of the mould.

Fun fact: historical swords used to break all the time due to poor edge alignment. Even modern reproduction swords made for HEMA break occasionally, which means that either we got stronger or don't understand sword fighting very well...
There's no reason you couldn't still quench and temper your blade, which would make much difference. You could also finish it easier with more traditional techniques after tempering. But even then you'd have a sword that's made from an inherently brittle material.
Maybe if you reheated it in a coke forge before quenching, but idk.
Bronze is inherently softer, but did usually get work hardened by hammering the bevels. That's a different technique than grinding but does the same job, but also has other benefits that also kinda apply to other metals, in a way that the material gets more consolidated near the business end.

You need to preheat your molds. They should be at around 1100 F when you pull the metal out for pouring.
This is especially important for a geometry like a frying pan in the way you're casting it because the metal has to flow over a lot of surface area to fill a small volume, giving the mold plenty of time to freeze the metal in its tracks and stop the pour.

Frying the bacon on the sword 😁😁😁. This was a fun project!

I love watching this because you are great at telling your audience about human history.

Question becomes how hard would it be to get rid of some of that extra carbon thru a secondary process and turn this material into useful steel ? In such a context casting it initially make sense.

The Metal bars we used are industrialized casting, and that is how it's made. melting and mixing the cast iron and making it a bar, so it can be shaped and forged into a sword. Before the industrial revolution era, they were casting all forms of metal to make it into something.

Yes, a whistle vent in casting is essential. Green sand is 6 parts sand and one part clay with just enough water to make a fist ball. Water in molten metal will explode, dry your tools. This should be stressed for safety. A caste sword is the beginning process. next it needs to be heated and hammered to compress the steel into a uniform structure, forged, tempered etc.

I can point out some points about why the pan didn't work, First point I didn't see any holes for air to escape in the mold, second point, The metal has cooled down too quickly, perhaps heating to a higher temperature will make it liquid longer.

It's cool to see these guys try this even though other TH-camrs have said you can not cast an iron sword and they even said on the start that it will be brittle!

Forbidden episodes,
"How to make babies."
"How to make cyanide gas."
"How to cook your neighbors dog."
"How to make yellow cake out of uranium."
"How to build a trap for neighborhood pets."

As a Smith, both in name and profession _(if only my mother had known),_ can I just say that it IS possible to cast a steel sword that is really quite nice, functional, and of decent quality? Not _good_ quality, but decent. It is by no means the most ideal.
You need a decent carbon steel, not overly high content - say 1095 or similar _(do not use high nickel stainless - yes there are reasons),_ nickel, and a few other ingredients. Think of this as scrap steel reclamation as is done in a steel foundry to make stainless stock... same process. This is not EASY, especially if you lack the proper kilns that can reach the required temperatures, and a waste of time and material.
Once cast, just as flat stock is cast in a foundry, and you add your profile by hand and hammer - not grinding as has become such a common short cut in blade smithing. This working of the steel will be correcting the grain structure, especially along the cutting edge, such that when you quench the blade the spine will still be relatively soft - the blade hardened. Precisely as you'd like.
_Disclaimer: Simply because you CAN do this, it is workable, and it will make a fully functional blade of semi-decent quality - this is much HARDER than simply forging the blade. You will also burn a bit of your steel, and the rest. MUCH harder. In summation: harder to do by an order of magnitude, wasteful, and you end up with a worse blade than even a lazily forged blade. Stick to smelting steel back into stock, and forging like normal._
_PS that'd be one ugly blade profile for any kind of iron._

Fair warning with your plans for a steam engine, it took a lot of effort to get metallurgy to the point where the boilers could withstand the pressure enough to not explode.

I have that bespoke post box - the real surprise in there was the pancake mix. It was AMAZING.

It's always nice to see other TH-camrs joining in.
Shame that the casts didn't work, but that's archaeology. 😀👍

You can improvise an electric arc furnace with stick welding equipment, graphite electrodes and an inert cover gas inside and old propane tank that has been cut in half. The top being the lid and the bottom having a conductive plate/bucket suitable for holding molten material. I should mention this should be well sealed with as little oxygen as possible. It may also help to install windows using welding helmet lenses.

Guys please do master the metals and metal-working part of civilisation. It will come in so handy for future projects which will require multiple iron or steel items (small and big). Perfecting the sand and other materials mixture or any other casting material is also a must - if the casting material you have is very good then you'll do much less work later.
Moreover, making items such as armour plates, tools or items for a possible steam-powered machine does require tons of work with metals.
Making a furnace that is up to the job is also very important - using bricks instead of clay and grass is going to make a huge difference. Using some basic concrete mixture to make sure the bricks are keeping the heat in would be neat. A big, well-constructed and sturdy furnace is going to beat the furnace used in this video any time of the day. You'll probably be able to melt iron in less than 10mins if you also construct a couple bellows as extra oxygen makes a real huge difference (you'll probably be able to melt other metals fine, too)!
The bellows are gonna last you for a really long time, unless the build quality is low, if the construction quality is good and it's overall very well-designed then it will be good for years, with some minor repairs here and there and when you re-construct it, pieces of the old bellows can probably be used.
Just a comment from someone that had been following you for a real long time now, since the first few episodes of the sandwich. Do not take this in the wrong way or in a negative way, it's just some constructive criticism as I've noticed that you guys have issues when it comes to smelting/metalworking and metal related things.

It absolutely can be cast using the Oliver method. Rods in the sand allow the steel to be tempered. This method was developed to produce cast it in plow sheers that needed to be both hard and strong.

Nice episode

"Never been this disappointed to see a bloom before"

So! Can You Cast an Iron Sword? Well, First things first: Let's 3D print a frying pan! :D

im so glad you're back on your feet

At 17:19 you can see little spring tails running for their lives.

For all those that say what they could have done wrong and to try differently, it isn't about how you pour cast iron, is the cast iron itself the problem. It is too brittle, for blades you need a steel that is hard enough to retain an edge but flexible enough to absorb hits. Cast iron is just very hard and not flexible enough, is like glass. There is a reason why blades for centuries have been forged. The pouring thing is just an idiot thing for the movies since it looks "cool" (even if i think a blacksmith smashing hot steel looks cooler). I'm a little mad about this thing cause since i make knives a lot of people asked me if i pour molten steel to make knives... and thats only hollywood's fault if people don't know how bladesmithing works

Something to add to make a skilelt that big maybe requires a bit more molten iron perhaps to fully fill it, I'd look back at some documents on how the process was done back then

You might have this in the pipeline but I would love to see a video on ancient jewelry like refining precious metals and cutting stones.

Loved the 'naughty dough' joke

I once worked for a company that produced cast iron heaters. When I said cast iron couldn't be strong they gave me a huge hammer and an old heater element and told me to whack a piece off. After frantically hitting it for 5 minutes, I gave in.

Love the content!

I like the forged in fire reference at 16:38

Air escape holes need to be added to ur molds and potentially extra spouts to make it easier to poar and fill in.

Would love to see the slow Mo guys do this as get a super slow shot of the break

A certain industry (which I will not name as this site might have an adverse reaction) sometimes uses near net shape cast steel components. But never the one component particular to the industry subject to the greatest demands for strength and toughness.

Love a good bit of historical science.

Beautiful, metallurgy is just so exciting!

You may not have gotten the items you wanted, but I was entertained. Thumbs up from me.

If this technique was used for war in medieval times, you'd make spearheads and arrows with them.
Flexibility is required in order for weapons to maintain their form so to speak, otherwise the weapon would need to be super heavy in order to remain durable.

17:15 RUNNNN!!!! every bug for itself

lost pla is hard because you can't just pour the metal in. you have to burn/melt out the pla first with a long baking time. especially with a shape like a frying pan being fed from the handle.

Based on other TH-cam videos iv watched, your sand molds did not have holes for air to escape, and possibly the sand needed packed better.

Looks like you need to up the clay content in your greensand. That will help with keeping the mold from collapsing as you pour.

It’s weird you can absolutely forge a bronze sword . Now if you can make good heat you can cast iron without changing the mix too make it brittle it would just need too up the heat . They pour steel now all the time too drop forge .

Oh hells yea! I love this idea

K, I wanna help, and I'd like to see you revisit this "cast iron" sword, but this is going to sound very critical and I don't mean it that way so please forgive me on this.
No.1: It's more likely closer to cast steel, not cast iron (Cuz semantics, and almost incorrect semantics at that lol;check out the differences of carbon content in cast iron vs cast steel. It's very counterintuitive lol). No.2 Cast steel swords were always hammer forged afterwards (and it was actually shown in those movies referenced) to increase tensile and compressive strength. No.3: they were typically cast in open wood flasks that were carbonized (ie:burned/ charred) to add a protection layer against the high heat. I don't know as though sand was used for that type of casting, icbw. No.4: there were no risers nor vents in your closed flasks which is probably one of the reasons you had trouble pouring those. In addition to heat. No.5: the sand/clay flasks could have been pre-heated to help with flow and premature cooling. No.6: insulation insulation insulation. This is likely the main reason you couldn't reach temps appropriate for your pour in the traditional clay kiln/foundry.
Revisit this and I'm sure you'll have better success.
Great vids, love them; and glad to see you bouncing back after the fire loss. Good luck!

if you need to mass produce swords, and can melt iron, then casting swordish shaped billets for later finishing makes a lot of sense.

The reason the molten iron won't fill the closed, pan mould is that you don't have a vent at at the other end of it. As you pour the metal in, the mould fills with gas(es) and will not allow any more metal - the closed space is already full, partly of molten iron, partly of air and other gases. It needs a way for the gas to escape if you want it full of metal.

Congrats! you made sword-shaped, cast iron mace :D

The short answer is...
YES, you "can" however, it would need a significant amount of work to finish the, err, umm, swor... casting and I would hesitate to call it a sword.
A sword is something one takes into battle. A cast iron "sword"-shaped object. Is a thing I might hang on the wall but never use.
Only try to use it as a weapon as a last resort expecting full well that it may fracture or shatter and cause as much if not more harm to it's weilder as it's intended target and expect to only get ONE decent blow if that. Anything more is gravy. And don't hit it against anything HARD.
CAST STEEL... should at least make a decent billet to make a sword from. Depending on the setup and mold etc, I know of no immediate reason why a passable sword could not be made of cast steel though, I assume, as with most things, setup, available tools, time constraints and knowing what you are doing would be key to making anything of quality.
So… sure but why would you want to?