Fun fact, alloying a lot of different alloys increase the number of dislocations in the crystal structure which increases its hardness but at the cost of making the alloy much more brittle, annealing can help to reduce the brittleness.
@@nutmeg9005 Annealing is heating the metal up to the point that the atoms in it can move around pretty freely and then letting it cool down slowly. This lets the atoms move around to where they are more "comfortable", as it were, in the lattice structure of the metal, which they don't get a chance to do if you quench it/cool it down quickly. The dislocations that ComndrChf referred to are places where the atoms don't connect up to one another, due to an atom (or bunch of atoms) being next to an atom (or bunch of atoms) that's already got its connections filled up. All these breaks in the crystal lattice make it very easy to break. Letting it cool slowly gives them time to move around to find a place that they can link up, improving the ability for the whole structure to hold together under stress.
Adding to the dislocation part : we know the grains were small because of the quench(idk if water or oil would've been nest here tbh), dislocations move through the metal from one atom to the other. When they meet a grain joint(where the structure changes) the dislocations get stuck hardening the metal. Its also possible that the difference in size of the atoms and/or new compounds acted as obstacles. The annealing would be useless and would most likely fracture the alloy(if the mix isn't homogenous) with the stress being released at different moment from the kinetic energy gain. A diagram of that alloy would be insane, three main components make it hard to read already xD. Also, english is a second language, my scientific jargon is not the best and i know it.
Imagine killing someone with this knife, and they run a mass spec on the fragments and dust left in the wounds and then the technician just looks at the reading and mouths "WTF" because some florida man made a knife with 19 elements
Hey, 29 years casting here. You need a sprue, on the back, towards the tip of your knife create an L shape with a straw, so you have two holes in the the top of the mold. This let's the trapped air escape to avoid air pockets. Also make the mold deeper than the knife by an extra 30% that way you have space to create a reservoir cone that you pour into to avoid lost metal and if possible, preheat the mold near to the pouring temperature to keep the flow going better, then quench when it's still hot to align the crystals in the metal, anneal gently to stress relieve, then dip in a used motor oil, lots of crushed charcoal and petrol and carbon dust and burn the oil off, the petrol will make it burn rapidly, surface hardening, then quench in cold oil, again plenty of carbon like crushed charcoal, you don't have to do that but it gives you a very tough surface that's whether resistant and the core is fully stress relieved so it's not fragile.
Gold isn't even that expensive, relatively speaking. Osmium is actually way more expensive, it's actually one of the most expensive elements that are non-radioactive and easiest to get but again, relatively speaking, because osmium is quite rare.
Hey Kevin, I’m a high school student who just learned chemistry and the main reason I think your alloy may have been brittle was because you put in metaloids such as Boron, Germanium, and Silicon which are basically transition elements from the metals to gases. I think if you try this again without the metalloids this time it may work a lot better. The metalloid elements you want to avoid putting in are Boron, Silicon, Germanium, Arsenic, Selenium, Tellurium, and Astatine. I love your vids man keep up the good work!!!
I'm studying materials engineering, have a class called "metals and alloys" Let me just say I would want to have the phase diagram of that monstrosity.
Hey! I'm studying Metallurgical engineering (mostly metals)! Just letting ya know, it would be impossible to have a phase diagram of that many components. As it is the most components we can do and have a full phase diagram is 3 (Ternary phase diagram with temperature on the z-axis. Good luck with materials engineering!
@@y.w.6243 Yeah, I feel like a little more research about the structures of each metal would have gone a looonng way. Plus, he added a ton of Boron which embrittles the metal.
thought you material guys might enjoy this, but at my workplace we get to machine this alloy called "toughmet" its insane stuff, copper nickle tin alloy
0:44 "it cost $150... meh... let's put it in the furnace." Yep that's Kevin. PS awesome video........as always Edit:a 100 likes...wow never got this many THanks people
i mean, not because i don't like the language, in the matter of fact, i do and i'd love to learn swedish... but seriously bro, is it really that boring to be in sweden?
Silicon and Boron on their own don't guarantee brittleness necessarily. Me real explanation is much longer than a youtube comment (I actually do quite a bit of work with high entropy alloys). The quick and simple explanation for this is, throwing all this together with no rhyme or reason is guaranteed to formed incoherent intermetallic compounds which, unless done in a purposeful and controlled way, pretty much guarantees your end product will be useless junk. This isn't science. This is uncoordinated flailing for views. 10 minutes on google would've predicted this result.
@@koolaidman007 since you're a metallurgist I just wanted to ask a question: Is it true that pouring molten metal (more specificaly aluminum) into water is extremely dangerous and that the only way thebackyardscientist is still alive today after his precedent videos about molten aluminum is due to the poor conditions he melted the metal in, preventing it from reacting with water thanks to an oxyde layer ?
I think a big part why the metal was so brittle is the way you quenched it. Normally, blacksmiths have a process they follow so that the metal doesn’t become weak
I don't think there are any elements left to discover. Maybe it could still be possible with a particle accelerator, but the chance of it happening would be super rare. We've already gone up to the atomic number 118, and anything above that is very unstable and will decay very rapidly into other elements, probably within nanoseconds. Anyway, you definitely can't make a new element by combining existing elements like this; all you get is an alloy.
@Duner250R you stoopid foc those are our nukes not just the governments if you want to use it Issa okay just put it back where you found it when you’re done with it
Looks like you ended up with a heterogeneous metal that was loosely bound together. The little molten balls likely indicate that some of the metal didn't mix at all.
Backyard scientist does an experiment that could lead to a groundbreaking new material that stronger that steel Also backyard scientist takes said material and pours it into grapes
"groundbreaking new material" That’s not how metallurgy works. I pretty much expected it to become a brittle mess. Real superalloys use one base metal (nickel is quite popular for this) and some carefully chosen additives.
@@among-us-99999 I don't know too much about metallurgy, but what about titanium? It's just an element on the periodic table, but our shop uses it rather often for sturdy projects. Stronger and lighter than steel (and stainless steel). Can it be 'superalloyed'?
@@awashburn6944 Good to know! I've always wondered why some of our contracts require titanium. The more you know I guess. Whats the price difference between titanium and nickel-based superalloys?
a friend of mine has a large kiln in his garage. there is no way were wheeling that thing outside to melt stuff. plus schools use them without dragging them outside too.
It looks like he made an expensive version of pot metal. pot metal tends to be brittle and crack over time because it's an unstable mixture of several low melting point metals.
The metal mixture was sweating when you re-heated it after quenching it because the solution is saturated and the max dissolved concentration becomes less and less as the temperature drops. Normally you would observe this sweating as the solid solution is cooling, but since you quenched it, the solution was frozen in a saturated state and didn't have enough energy to escape into its favored concentration until you gave it an energy boost with the blowtorch which is why it started sweating
So, fun fact. Metals can form chemical bonds with other metals to form something called "intermetallics". Intermetallics are silvery like metals, but are essentially kind of like ceramics. They are super important for actual super alloys, which I guess you know exist! (Ni3Al and Ni3Ti, for those curious). However, most intermetallics are very brittle and are just weak points in the material. You probably made a huge bunch of random intermetallics there in that crucible, which is partly why the "knife" was so brittle. Intermetallics are also why it can be incredibly hard to weld things like steel to titanium, or aluminium.
@@among-us-99999 Because the reaction produces chloramine vapor *and* chlorine gas. And chlorine gas tastes like mustard - spicy! Much spicier than pool water.
I remember back when i was a teacher at a blacksmithing school we tried to make crucible steel without any instructions. It was equal parts wrought Iron, cast iron, chrome, tungsten, vanadium and cobalt. It turned out great, but was completely useless for anything. It could not be scratched with a carbide insert, but could be dented with a hammer.
The reason is that what you are trying to do is disolved the higher temperature metals in the lower temperature ones. If you do it the other way around you end up boiling the lower temperature ones off. For example steel is an alloy of iron and carbon but carbon doesn't melt but sublimed around 6500°F. So it gets desolved into the molten iron to make steel.
Usually the price to buy is over and the price to sell is under, due to obvious reasons. The price to buy a single gram from most places will be like 55-60 per gram.
Thank you for the periodic table color coded with red=dead and flammable stuff. Will come in handy as I am smart enough and handy enough to be curious and experiment but not smart enough to not do something dangerous
1. How would you make real vibranium? 2. Think you can try to make flexible circuits? 3. Have you seen or watch Ratchet and Clank before? 4. Do you have skills of computer programming? 5. What would you use for a power source for an exoskeleton armor filled with the weaponry and gadgets? 6. What would you make for turning kenectic energy into electricity from bullet shots with not a single bullet hole.
Hey, have you ever heard of electrum? It’s a metal I “discovered” while melting stuff down. It’s a 50-50 gold and silver mix. It is so bizarre, in some lights it looks gold and others silver. You should try it!!!
i made a allow called ectrum a 25:5:6 3:6:8 ration of tungsten bismuth titanium gold gold and silver it is strong and really good at conducting electricity
Now you should combine 69 elements, I bet the resulting alloy would be *nice*
Just Some Bigfoot With Internet Access how can he add gases into the mixed
Bruh
I have completed to 69 likes; do not add any more
@@TheFerretofEarth With chemistry
Nice
Separating them sounds like it could be fun.
How would you even go about separating metals? It seems pretty hard.
My gosh everyone commented about you it's amazing seeing you here
Please do it
Charge him at least 30%
The legend himself is here
Fun fact, alloying a lot of different alloys increase the number of dislocations in the crystal structure which increases its hardness but at the cost of making the alloy much more brittle, annealing can help to reduce the brittleness.
i would rea like to see what the alloy would be after annealing it
Whats annealing mean/do to the structure?
J•Erik oh okay thnx
@@nutmeg9005 Annealing is heating the metal up to the point that the atoms in it can move around pretty freely and then letting it cool down slowly. This lets the atoms move around to where they are more "comfortable", as it were, in the lattice structure of the metal, which they don't get a chance to do if you quench it/cool it down quickly. The dislocations that ComndrChf referred to are places where the atoms don't connect up to one another, due to an atom (or bunch of atoms) being next to an atom (or bunch of atoms) that's already got its connections filled up. All these breaks in the crystal lattice make it very easy to break. Letting it cool slowly gives them time to move around to find a place that they can link up, improving the ability for the whole structure to hold together under stress.
Adding to the dislocation part : we know the grains were small because of the quench(idk if water or oil would've been nest here tbh), dislocations move through the metal from one atom to the other. When they meet a grain joint(where the structure changes) the dislocations get stuck hardening the metal. Its also possible that the difference in size of the atoms and/or new compounds acted as obstacles. The annealing would be useless and would most likely fracture the alloy(if the mix isn't homogenous) with the stress being released at different moment from the kinetic energy gain.
A diagram of that alloy would be insane, three main components make it hard to read already xD. Also, english is a second language, my scientific jargon is not the best and i know it.
Imagine killing someone with this knife, and they run a mass spec on the fragments and dust left in the wounds and then the technician just looks at the reading and mouths "WTF" because some florida man made a knife with 19 elements
Perhaps you might just be right...
Forensics is gonna have a field day with this one
@Captainzilla418
Xkcd: NOOOOOOO
"This is the way"
The way of Florida man
@Captainzilla418 lmao it would have some radioactive materials in it
This is the Grown up version of mixing all the paint together trying to get black, when all you actually make is a crappy brown XD
in my case i tried to make white.....
Introducing light paint
@@generalford5469 AKA: poo brown
Or a crappy grey that is on the edge of ugly
LOL
Alternate title: Florida man left alone with 19 elements and a metal foundry
He is basically Florida man, but in the best way
@@darstar217 Florida's leading scientist
I'm proud to be a Florida man
And his girlfriend. Don't forget the girlfriend.
That's just bad
"i'll never see that piece of gold again"
Just ask NileRed. He'll get it back for you haha
Or Cody.
Lol true
Yea it would just take super long
Cody's the best for gold extraction.
*Nigel
"Im probably never gonna see this gold again"
Cody's lab: I got you bro
IKR
Cody: I took out the gold, silver and made a perfect 17 element alloy.
Hey, 29 years casting here.
You need a sprue, on the back, towards the tip of your knife create an L shape with a straw, so you have two holes in the the top of the mold. This let's the trapped air escape to avoid air pockets.
Also make the mold deeper than the knife by an extra 30% that way you have space to create a reservoir cone that you pour into to avoid lost metal and if possible, preheat the mold near to the pouring temperature to keep the flow going better, then quench when it's still hot to align the crystals in the metal, anneal gently to stress relieve, then dip in a used motor oil, lots of crushed charcoal and petrol and carbon dust and burn the oil off, the petrol will make it burn rapidly, surface hardening, then quench in cold oil, again plenty of carbon like crushed charcoal, you don't have to do that but it gives you a very tough surface that's whether resistant and the core is fully stress relieved so it's not fragile.
What do I need and in what quantities for stainless steel
@@susanbrearley437 Google it.
Challenge: send. It to “Cody’s lab” and see if he can separate all the elements again!
Yeah or nileRed
@@snepNL Nile red doesn't do the same type of chemical work
And sell the gold to buy a knife blank from the water jet channel
@@raverkidloki is that so.
He can.
Send the alloy to Cody, make him un-alloy it.
Or nile red
@Zion castillo NileRed has no proper furnace for this, he tried it a few times in the past
" instead of hearing me say bloop 20 more times, how bout I show you this cool box from kiwico"
honestly, I'd rather hear you say bloop 20 more times.
Samw
WHERE ARE THE VIDEO METAL MASTER?
@@JimboJuice wdym?
I mean, I haven't posted any youtube videos because I've been really busy working to keep my family stable. xD
@@Metal_Master_YT your supreme terror ends soon
same
If you want that gold back, send your alloy to Cody, he’s good at separating metals
That would be a cool follow up video.
@@breadman32398 I would be interesting to see how much Cody could recover from it...
Yes that would be super cool
I was about to say this, Get Out of My Head
Yup
"Some things were just too expensive"
*melts some gold*
Gold isn't even that expensive, relatively speaking.
Osmium is actually way more expensive, it's actually one of the most expensive elements that are non-radioactive and easiest to get but again, relatively speaking, because osmium is quite rare.
What are you? A Conquistador visiting the Incas?
Bloop
@Mazaroth | Osmium is also the element with the highest density.
Saffron costs more than gold
Him: Randomly mixing 19 different elements into a metalloid mess
The guys who had to spend days obtaining and purifying this stuff: -_-
Congratulations, you've made Anti-Mithril:
A silvery, heavy, and super brittle metal.
anthril
@@saffroncoasts6950 anvil
anthill
smallant
69th like
BYS: "i am probably not gonna see that piece of gold ever again"
cody: "hold my xray gun"
3:09 "too expensive" **melts gold**
**laughs in 100M+ einsteinium**
Him: This cost me 700 dollars, my soul, and my whole pack of legos
Also Him: **plOoOp**
its like a cookie it is hard then when warmed up it just falls apart
Wait Mr. Aizawa?
Nobody:
Backyard Scientist: This bad boy can fit so many elements in it.
ruclips.net/video/hXOEoH5q3Hw/видео.html
I swear if Chernobyl happens again it’s his damn fault.
LOL
Backyard Scientists: says the metals names perfectly
Me: bless you
69 likes nice
@@masac2853 bro let’s go
Aluminum....
“Trying to melt tungsten”
I just learned how hard tungsten is to melt in dr stone lmao
Ah, a man of culture I see
To melt it, just use an arc furnace. Simple as that
Man of culture
Yep
Omfg same
Hey Kevin, I’m a high school student who just learned chemistry and the main reason I think your alloy may have been brittle was because you put in metaloids such as Boron, Germanium, and Silicon which are basically transition elements from the metals to gases. I think if you try this again without the metalloids this time it may work a lot better. The metalloid elements you want to avoid putting in are Boron, Silicon, Germanium, Arsenic, Selenium, Tellurium, and Astatine. I love your vids man keep up the good work!!!
Can it cut cheese?
I see the joke budget was 5¢...
Hey, those Babybel single semisofts are 75¢ before tax thanks you very much. :-p
@@chronosorion6911 😅
I'm studying materials engineering, have a class called "metals and alloys"
Let me just say I would want to have the phase diagram of that monstrosity.
Hey! I'm studying Metallurgical engineering (mostly metals)! Just letting ya know, it would be impossible to have a phase diagram of that many components. As it is the most components we can do and have a full phase diagram is 3 (Ternary phase diagram with temperature on the z-axis. Good luck with materials engineering!
Charles Matlock yeah true. Our computational power is limited. Btw, dealing with the lattice mismatch from the very beginning is impossible
@@y.w.6243 Yeah, I feel like a little more research about the structures of each metal would have gone a looonng way. Plus, he added a ton of Boron which embrittles the metal.
thought you material guys might enjoy this, but at my workplace we get to machine this alloy called "toughmet" its insane stuff, copper nickle tin alloy
@@y.w.6243 How much more computing power would be needed to calculate more? Perhaps a quantum computer could be of great benefit to this.
9:17 Wow, thats a nice transition taking off your gloves 😎
"Never been done before"
The industrial revolution and many other times in history have left the chat:
TechyBen your account was in my sub box years ago what are the odds
Industrial revolution ever mixed alloys. Just advancing in technology
Send it to Cody’s lab so he can make a video recovering the original ore.
Somehow
And this guy can’t do the same? Cody to to suck out his own metal
Yeah😂😂
At least take out the gold.
Have him recover the gold
Precious metal recovery
2:56 When he said Manganese I instantly thought of the JonTron halloween thing where he threw Manganese in the fire and flash banged himself. Classic.
“It’s a monthly subscription serv-“
*10 Seconds >>*
Do not like his comment its at 69
Well, now we gotta get it to 420, obviously.
>> 30 seconds
every time dude
Kingo crimson
Someone has been watching too much "Forged in Fire"
Yeah watching him try to cast a knife with random elements expecting a knife like result made me cringe unbelievably hard
It will just make brittle garbage and he added non metals(silicon)?Why?
Yes, will it "KEAL"?
Its a damascus blend.
@@JMRSplatt it will *k e a l*
We didn't have kiwico. We had rusty bits of metal, used nails, steel cans and cast off appliances and we were glad to have em
"How to make a brittle cheese knife with 19 household elements in 3 simple steps!!" - I revised your title, you're welcome.
0:44 "it cost $150... meh... let's put it in the furnace."
Yep that's Kevin.
PS awesome video........as always
Edit:a 100 likes...wow never got this many
THanks people
Oof
I mean, PressTube did like 40k in gold. Lol
@@wasmadeinthe80s Yes but you can just melt it and get back all if not most of it and then cast it again and boom it's back to how it was
Don't worry he probs got more than that from the shillscription box
Wrong 101
Love how he was surprised when he couldn't melt the tungsten cube...
It's hilarious hearing the word "Tungsten" as a swede.
The words comes from Swedish.
Tung=Heavy
Sten=Stone
Some words theirself in swedish are funny like kock
@@possiblebot6858 hahahha well, if your a Swede, it doesn't sound weird at all. But you can also use the word "Köksmästare".
@@niceguy1891 Swedish Chef ? ;)
@@niceguy1891 tungsten ore is kinda like a stone, and it is probably heavy too
i mean, not because i don't like the language, in the matter of fact, i do and i'd love to learn swedish... but seriously bro, is it really that boring to be in sweden?
You should’ve done some different testing of the metal like electrical conductivity and what not.
Next time
It’s mostly copper. Probably very conductive.
2:05 parents signing their signature on the restaurant bill be like
You're going to make brittle garbage.
Love,
An actual metallurgist
I wasn't expecting anything good from the title, but putting silicon in seems like it would guarantee brittleness. Thoughts?
@@heitman78 boron too
Silicon and Boron on their own don't guarantee brittleness necessarily. Me real explanation is much longer than a youtube comment (I actually do quite a bit of work with high entropy alloys). The quick and simple explanation for this is, throwing all this together with no rhyme or reason is guaranteed to formed incoherent intermetallic compounds which, unless done in a purposeful and controlled way, pretty much guarantees your end product will be useless junk.
This isn't science. This is uncoordinated flailing for views. 10 minutes on google would've predicted this result.
@@koolaidman007 since you're a metallurgist I just wanted to ask a question:
Is it true that pouring molten metal (more specificaly aluminum) into water is extremely dangerous and that the only way thebackyardscientist is still alive today after his precedent videos about molten aluminum is due to the poor conditions he melted the metal in, preventing it from reacting with water thanks to an oxyde layer ?
Axel23410 this^
This guy could do a killer Kermit the frog impression.
LOL
I think a big part why the metal was so brittle is the way you quenched it. Normally, blacksmiths have a process they follow so that the metal doesn’t become weak
This man's posts are like water in the dessert
Yeah nothing better than pouring a nice cold glass of water over some cheesecake
did you mean desert perhaps
The Tylenol I take when my head hurts
Well, a dessert without any water in it would be very unappetising. Desiccated strawberries and clotted cream solids, anyone?
@@RWBHere i mean those oven cooked foam thing made of egg are dry and tasty
“Florida man found dead with a new element “
Wait, how the hell did he get Lofteum?!
Idk😂
He is making compounds not elements.
Not a new element bud
@@Darek225Army you and this Obama account both seem to have severe brain damage.
I love this guy. Makes science actually fun. Should've been my bio teacher
This guy gonna make an element that blows up half the damn earth.
I would call it Hygon
Is it bc its going to come (Hi) and go(gone)
Wholesome nugget why do you have a none wholesome comment
I don't think there are any elements left to discover. Maybe it could still be possible with a particle accelerator, but the chance of it happening would be super rare. We've already gone up to the atomic number 118, and anything above that is very unstable and will decay very rapidly into other elements, probably within nanoseconds. Anyway, you definitely can't make a new element by combining existing elements like this; all you get is an alloy.
@Duner250R you stoopid foc those are our nukes not just the governments if you want to use it Issa okay just put it back where you found it when you’re done with it
(puts bismuth and aluminum in) "it's so brittle!"
Looks like you ended up with a heterogeneous metal that was loosely bound together. The little molten balls likely indicate that some of the metal didn't mix at all.
This metal COULD maybe have some kind of use for making breakaway props for movies
He making a super duper ultra metal
"This piece of gold is more than 150 dollars!"
(Throws it away)
Backyard scientist does an experiment that could lead to a groundbreaking new material that stronger that steel
Also backyard scientist takes said material and pours it into grapes
"groundbreaking new material"
That’s not how metallurgy works. I pretty much expected it to become a brittle mess.
Real superalloys use one base metal (nickel is quite popular for this) and some carefully chosen additives.
@@among-us-99999 I don't know too much about metallurgy, but what about titanium? It's just an element on the periodic table, but our shop uses it rather often for sturdy projects. Stronger and lighter than steel (and stainless steel). Can it be 'superalloyed'?
@@awashburn6944 Good to know!
I've always wondered why some of our contracts require titanium. The more you know I guess.
Whats the price difference between titanium and nickel-based superalloys?
I love you backyard scientist! 😁
Edit: 5:55 he cut the cheese. 😆
*Everyone:* has furnace outside.
*Backyard scientist:* Nah inside should be fine, its not that hot anyway.
A cheap solution for heating during the winter season!
let me just pour some excess liquid metal on my table right here
a friend of mine has a large kiln in his garage. there is no way were wheeling that thing outside to melt stuff. plus schools use them without dragging them outside too.
2:51 Kevin: Aluminum
*shows symbols for Iron*
9:06 the best Halloween lamp
0:37
Au= Gold
Au=Australia
And that gold coin is from Australia
Aurum is waving at you
I read coin cidence.
Congratulations, you have created that mythical substance known as silver peanut brittle, except you forgot the peanuts.
This is like putting loads of play-dough together and seeing whatever it does.
How to die in only in 19 steps
1:05
People over 104: 𝔄𝔯𝔱 𝔴𝔢 𝔧𝔬𝔨𝔢𝔰 𝔱𝔬 𝔱𝔥𝔢𝔢?
Send it to Codys Lab. He'll separate the metals back out.
"this has never really been done before" later... "their doing this already to create new metals" -_-
Who knew that molten glowing metal poured on grapes would look so satisfying
That pendulum in the dark looks like my cursor movement while playing osu
Lol, too true!
It looks like he made an expensive version of pot metal. pot metal tends to be brittle and crack over time because it's an unstable mixture of several low melting point metals.
9:55 I like the fact that burnt watermelon is something he has smelled.
We all really know he's just trying to make some real life beskar.
"some elements are too expensive"
frikin uses gold
Yeah platinum and rhodium cost more
You all three are wrong
@@RedMoonsEcho no u
@@RedMoonsEcho Go price them. We'll wait.
Platinum is currently a lot cheaper than gold
Tungsten: "Man it's toasty in here :)"
Other metals: *_"AAAAAAOOOOOUUUUUUUUUAAAAAAAAAAAAAHHHHHHHHHHH"_*
Last time I was this early, there were only four elements.
What about the Fifth Element?
@@zingerific8209 Boron
Zingerific Ah
so you are a man of unknown as well...
I’m not surprised he’s from Florida
The metal mixture was sweating when you re-heated it after quenching it because the solution is saturated and the max dissolved concentration becomes less and less as the temperature drops.
Normally you would observe this sweating as the solid solution is cooling, but since you quenched it, the solution was frozen in a saturated state and didn't have enough energy to escape into its favored concentration until you gave it an energy boost with the blowtorch which is why it started sweating
To the backyard scientist I love your videos I wish you would put more out
I can melt metal by just staring at it
Ok, Chuck Freaking Norris
So, fun fact. Metals can form chemical bonds with other metals to form something called "intermetallics". Intermetallics are silvery like metals, but are essentially kind of like ceramics. They are super important for actual super alloys, which I guess you know exist! (Ni3Al and Ni3Ti, for those curious).
However, most intermetallics are very brittle and are just weak points in the material. You probably made a huge bunch of random intermetallics there in that crucible, which is partly why the "knife" was so brittle.
Intermetallics are also why it can be incredibly hard to weld things like steel to titanium, or aluminium.
Whenever I get close to my grandma... 0:57
Are you talking about the boops
Or the "let me tell you about this box"
T.D.L the boops
@@loops8551 ahh
I see, *that's what I hope you were going to say*
Next video: Florida man found dead after trying to combine bleach and ammonia...
It’s not even that bad
@@among-us-99999 Mmm, tastes like mustard!
@LordDragox412 why always the connection to mustard gas? Mustard gas is a sulfur compound.
The reaction of bleach with ammonia yields monochloramine
@@among-us-99999 Because the reaction produces chloramine vapor *and* chlorine gas. And chlorine gas tastes like mustard - spicy! Much spicier than pool water.
dontlikemath -.- chorine gas ain’t very friendly to living organisms’ aliveness
I remember back when i was a teacher at a blacksmithing school we tried to make crucible steel without any instructions. It was equal parts wrought Iron, cast iron, chrome, tungsten, vanadium and cobalt. It turned out great, but was completely useless for anything. It could not be scratched with a carbide insert, but could be dented with a hammer.
0:50 Codyslab would recover it
This guy is the exhibit A of knowing enough to be dangerous.
I'm gueguessing he didn't use magnesium. But I'm too lazy to pause, so...
Okay, wtf autocorrect
Ezra Walker then edit it dipshit, only 45 year old single dads still point out autocorrect messed up what your typing, no reason to point it out
This mobile platform doesn't allow editing for some reason.
@@Itchyboy_ dude what is your problem. Leave him alone, is it really a big deal to you? Don't be a bully, be nice to people.
Ezra Walker yes you can edit comments in youtube.
You are the best RUclipsr The backyard science
This is the earliest I’ve been
Kaleb Ellett me too I’m just bored asf
@@tommyross5894 relatable.... too relatable
It can, it’s called a “High Entropy Alloy”
Abdega he mentioned that in the video
"For example, here's a glowing pendulum I made."
That isn't a pendulum, that's a DOUBLE pendulum, the most chaotic shape in the universe.
“Where were we?” Ah yes BOLWTORCH
It’s blowtorch
There’s a difference?
This seems like something Cody’s Lab would do
Florida man mixes 19 metals in his backyard to try and make a knife
4:55 Minecraft anvil sound.mp4
Why wouldn't you start with trying to melt the higher melting point elements?
The reason is that what you are trying to do is disolved the higher temperature metals in the lower temperature ones. If you do it the other way around you end up boiling the lower temperature ones off.
For example steel is an alloy of iron and carbon but carbon doesn't melt but sublimed around 6500°F. So it gets desolved into the molten iron to make steel.
Kevinium, Backyardium. Name it what you like.
The backyard scientist: *talking about science stuff*
Me:look I made a triangle out of paper!
Shouldn't you be killing people are something
Gold’s at $50/gram. You overpaid for 2.8g’s. When you poor into sand like that it’s gonna be brittle. Great video though 😉👍🏼🖖🏼
Usually the price to buy is over and the price to sell is under, due to obvious reasons. The price to buy a single gram from most places will be like 55-60 per gram.
Thank you for the periodic table color coded with red=dead and flammable stuff. Will come in handy as I am smart enough and handy enough to be curious and experiment but not smart enough to not do something dangerous
Tungsten wouldn’t melt in there even slightly, it’s not like a steel crucible
Yeah when I was welding I barely managed to get my tungsten stuck to the piece.
I really wasnt surprised when the tungsten didnt melt considering the 6,192 °F (3422 °C) melting point
That deal you did with the foam and the old and cement was AMAZING. My mind is exploding with ideas lol
1. How would you make real vibranium?
2. Think you can try to make flexible circuits?
3. Have you seen or watch Ratchet and Clank before?
4. Do you have skills of computer programming?
5. What would you use for a power source for an exoskeleton armor filled with the weaponry and gadgets?
6. What would you make for turning kenectic energy into electricity from bullet shots with not a single bullet hole.
That alloy is called BRASS: made in BackyaRd Alloy which is Super uSeless.
I like Backyard Scientist videos soooooooooooooooo much!!!
You'll never see that gold again, but you're also never getting that Nickleback.
...
I'm not sorry.
Hey, have you ever heard of electrum? It’s a metal I “discovered” while melting stuff down. It’s a 50-50 gold and silver mix. It is so bizarre, in some lights it looks gold and others silver. You should try it!!!
i made a allow called ectrum a
25:5:6 3:6:8 ration of tungsten bismuth titanium gold gold and silver it is strong and really good at conducting electricity
Evanston Conner oh geez. I just accidentally kinda stumbled on it. I didn’t know it was that complex lol