I am a retired metal forger. One of the presses I had access to was 24,000 Tons. We also had a 12,500 and a 500. ton. One day I was exercising the 24 and decided to see what it would do to a wooden 4x4, it was about a foot long. It took down to just under a 1/4'' and then stoped. At this point I was dumbfounded I thought it would take down to paper thin. I was about to pull back on the control lever, and that is when the wood exploded. ( was now petrified) I was in a very large building by my self until the would explode. that is the exact time some of my superior’s come walking in the side door next to the large roll up door. A good size piece of the wood hit the roll-up door as they stepped in the building. There was a large bang at the roll-up door, next to them, they looked to see what the racket was, but the wood had ricocheted off in another direction. I pulled up on the lever, and removed the evidence promptly, they shrugged it off, know body was hurt, and this foolishness was never repeated again.
It must had been water in the wood who had becomes steam, which expands to 2,000 times the volume of it in the liquid state - so it was really a steam explosion.
that isn't how petrified wood forms (lithified through replacement mineral precipitation.) Basically the wood is replaced by crystalline minerals and becomes stone... which still preserves the original shape and detail of the original wood structure.
Yeah, the pressers weren't anywhere close enough to put the pressure on the balls. The pressure should have been made out of tungsten or at least steel
I would like to see what this looks like using a thermal camera. These steel and tungsten objects must get really hot when subjected to so much pressure.
It’s not the pressure it’s the friction from being reshaped. So the tungsten would not be very hot since it is not reshaped while the distorted steel would burn through plastic. To replicate it try hammering a nail into a knife
The synchronicity of the music along with the sound of the actuality was so spot on to be noted you can put that press in a song in the fact that tungsten dented your press what is both to me fascinating and insane I did not know that
My eyes twitching and squinting while I'm watching this, like my brain thinks I'm in the same room and knows something is about to go BOOM CHAKA LAKA 😂
The Tungsten was literally unbreakable under the 500 ton press, and went through the steel like butter. So was the 80mm ball, but that didn't put a literal gaping hole into it (the steel ball did too, but not nearly as much). I wonder just how much it would take to break Tungsten. I guess that's why they make military tanks out of the stuff
The SpaceX Starship uses thinner stainless steel because the cryogenic cold fuel makes the steel stronger at very low temps. This is a great practical example.
This is actually a really good analogy for how enriched plutonium can go supercriticl when in a situation where the stresses keep exponentiating from further and further pressure, until the rate of the runaway react, or in this case the microcracking and deforming of the steel balls, goes from 0 to 10 to 10,000,000,000,000 in such a fast time that it appears to the outward eye like a singular instant explosion when in reality is a compounding mass failure of micro cracks and fails that happen millions of times in less than a second which has incredible force
Pois creio que após a expansão há o efeito de vácuo e por isso ocorreria uma descarga elétrica cujo pico um receptor de AM detectaria, pois relâmpagos são descargas térmicas instantâneas que causam o vácuo atmosférico cuja implosão de reação é o trovão.
As above so below. The smallest boom would seem nuclear in size if u were that small, and inversely if it was a real atom bomb size boom, if u were that small it would seem the same to u.
I google afterward.. I was expecting it to shatter because of the cold. It turns out the extreme cold actually makes steel stronger. Something about molecular bonds being harder to separate.
@@sshah2545the action lab has done a video on this. Actually the molecules come closer so the steel ball does become harder but it should also become more brittle, ie, it's tensile strength and malleability will decrease
@@sshah2545 When steel becomes harder, it also becomes more brittle. That's work hardening. You can create work hardening on a paperclip, i.e. bending it until it breaks.
Helps you appreciate how annealed roller bearings that the wheels of your car turn on are able to last through decades of shock & severe impact out on the road There will be examples of higher milage, but personally my mother's subaru reached 250,000 miles on the same wheel bearings before she sold the car. (A 1992 Loyale) A neighbor with an 80's Toyota truck reached 350,000 before he finally replaced the bearings during a brake job
There are different grades. Those seen were not actually "bearings" but "valves". Typically the ones used for load bearing are made of 455C steel and tempered to around 60 Rockwell (SUPER hard) Carbide ones go much higher and I suspect the one that broke his setup causing the crash was Carbide not Steel. The 455 one had to be the one that shattered at the start of the video.
Bearings are used in a insane amount of heavy machinery that require a lot of wear and put a lot of abuse on them. They can take a lot, like a lot, a lot.
O melhor vídeo de esmagamentos que eu já vi. Sempre me perguntei o quanto aguentariam esses materiais da prensa. E hoje vejo que também possuem o seu limite de resistência. Parabéns pela experiência. E espero que a câmera e a lente não tenham quebrado!
I cannot believe the 80mm ball split the plate you was crushing it on. The fact most of your press tools were split by these is a testament to how hard they are
What do you mean don’t try this at home i just set up a 500 ton press in the living room do you know how long it took to convince the wife it was a functional piece of furniture 😂
Love this video but I guess I missed the switch between the comparative 30mm and 80mm tungsten Bearings. And what materials are the top compression component made from?
Amazing! Commercial aircraft typically use only 3 super strong hydraulic jacks to lift an aircraft weighing in excess of 400,00 lbs without fuel, in this case DC-10, MD-11. With three separate support arms, with a center column supporting the load, there is only a very small point of contact, roughly 2.5 inches with a center pin in the middle.
@jakefriesenjake Because the steel in ball bearings is so unbelievably hard it's a favorite for today's lunatic knife makers to make Damascus steel utilizing ball bearings among other things. If you haven't seen any of those videos I would highly recommend them. Think of it, turning Ultra hard steel ball bearings into knife blades that look like wood grain. If you've never seen Damascus steel you're missing something.
@@Smedley1947I collect knives and specialize in different types of steel. I use a dovpo straight razor to shave. Lol. I know steels. And tho those Damascus blades are pretty, it isn't true Damascus. Just saying, I wish they had used a different word for it to not confuse the types.
@Crazy Hydraulic Press: you didn't cool down your sphere - you need to keep checking LN2 level and topping up your tank so that the sphere remains submerged at all times if you want to cool it down. Keep in mind that -190 is LN2 temp, not the temp your sphere will reach internally (definitely not in 20 mins for an object of that size/density). It is extemely unlikely you'll ever reach -190 unless in ultra high vacuum (i.e. 1*10^-7 mbars). Plus if you don't top up constantly you get ice forming on the surface (very visible in 3.19), making your sphere v slippery and a h&s risk. Try again. Also would recommend using a thermocouple (if you can) to check sphere's temp otherwise you can't know where you're at. To cool down objects of this size/density, I'd say you'd have to wait a min of 60 to 90 mins approx but do some research and test it out yourself to optimize it accordingly.
This experiment should be shown to the prosthetic hip industry. Perhaps it would help them better understand the best materials to use when manufacturing prosthetic hip components.
Interesting to me is that you seem to be able to handle all the pieces by hand after the press activity. I would think there would be a lot of heat generated by the process. Maybe some thing to add...
A lot of editing goes into the video, I'm sure they cut out what's probably at least several minutes of waiting for the stuff to cool down before handling it. I seriously doubt they go touch the stuff immediately.
I hope you don't mean what I think you mean. Otherwise technically it had all the same energy on it while pressed as when it burst. It just did not release any energy. Keep in mind when something that does not mean it heated up. Thats a chemical reaction not a physical one
@@aheadsounds2522pura Física, pois houve uma relaxação, e osciladores de relaxação têm esse princípio, mesmo tendo havido apenas um impulso ou ciclo na onda gerada. É tal como um monjolo, ou mesmo o rangir de uma porta, ou o eventual som do surto do crescimento de uma bananeira
Usually on videos of hydraulic pressings do people comment on satisfying it is to see things getting destroyed by the press but it's never that way for me. But this,seeing unbreakable material damaging the hydraulic press,is very satisfying.
I am a retired metal forger. One of the presses I had access to was 24,000 Tons. We also had a 12,500 and a 500. ton. One day I was exercising the 24 and decided to see what it would do to a wooden 4x4, it was about a foot long. It took down to just under a 1/4'' and then stoped. At this point I was dumbfounded I thought it would take down to paper thin. I was about to pull back on the control lever, and that is when the wood exploded. ( was now petrified) I was in a very large building by my self until the would explode. that is the exact time some of my superior’s come walking in the side door next to the large roll up door. A good size piece of the wood hit the roll-up door as they stepped in the building. There was a large bang at the roll-up door, next to them, they looked to see what the racket was, but the wood had ricocheted off in another direction. I pulled up on the lever, and removed the evidence promptly, they shrugged it off, know body was hurt, and this foolishness was never repeated again.
Are you 'retired' now because you sold one of your forgeries to a prominent Museum and you were apprehended when they tested it.?
So petrified wood is just wood under extreme pressure. That explains all the modern petrified artifacts from the mud flood
It must had been water in the wood who had becomes steam, which expands to 2,000 times the volume of it in the liquid state - so it was really a steam explosion.
that isn't how petrified wood forms (lithified through replacement mineral precipitation.) Basically the wood is replaced by crystalline minerals and becomes stone... which still preserves the original shape and detail of the original wood structure.
nobody*
The hydraulic press: “I’m tired boss.”
Wtf are you talking about
@@SubwaySam10 You're that young dude? Damn.
@@willnotdo2tf you talkin about
@@Epxron12345 You're that other young dude? Damn
Cringe boi don't know the old tales
>reads “do not try at home”
>sadly wheels 500 ton hydraulic press back into garage and closes door
Dang it😔😂
Yeah, they never let you do the fun stuff 😒
Oh, come on Wiley Coyote. That never stopped you before!🤭
>wheels 500 ton hydraulic press over to neighbor's house >:)
🥺
6:03
Tungsten ball: CALL AN AMBULANCE!!! ...BUT NOT FOR ME!!!!
💪🤏
The hidrogen thing made the ball even harder
@@itsSoColdOutside Nitrogen
@@fighterck6241What do you mean by that? Bm
Tungsten is Swedish and literally means 'heavy stone', which is kind of an understatement.
Reporter: "Do you take steroids?"
80mm steel ball bearing: "I don't juice. Just exercise, good eating, and sleep. Sometimes take a cold shower."
@zer0_creativity "I'm not bragging, run the numbers, you'll see."
Just do your homework and eat your vitamins, brother!
@zer0_creativity This is just the Football Zombie's almanac entry tbh.
Just chicken, rice, broccoli and discipline
Yeah, the pressers weren't anywhere close enough to put the pressure on the balls. The pressure should have been made out of tungsten or at least steel
Anyone else squinting their eyes?
nope
@@Whyareyougay394 🏅
@@durango.j-onezwth
No I put safety glasses before watching
@@vihuelero1001 clever
I love the warning at the beginning. "Don't try this at home", Yeah, because everyone has a 500 ton press in their home!
😂😂👊
Actually, you'd be surprised.....
Mine only goes to 300 tons.
I do every time my mother in law visits.
Hospitals would be overflowing with I was Stupid cases.
This gives "you have balls of steel" a whole new meaning.
but not as bally as your pig pong
In a Bad way
I’ve been wasting my life on TH-cam for years.
That was one of the more incredible things I’ve ever seen..
I feel you. It was all worth it.
That's experience
Lol, this guy literally has balls of steel
Dude, if you keep doing tests like this, you're going to create a black hole in the world.
no.
You need to implode a star for that
@@ifstatementifstatement2704 Next Video: *Hydraulic Press vs Star.*
I thought that anything could theoretically create a black hole if compressed enough
He need to be sponsored
Thank you for showing us the metal strength and breaking points. More power to you. 👍👍👍
I would like to see what this looks like using a thermal camera. These steel and tungsten objects must get really hot when subjected to so much pressure.
You mean under suspicious circumstances
Até um gás se aquece na compressão @@Rocket351
Maybe some contact metamorphism.
It’s not the pressure it’s the friction from being reshaped. So the tungsten would not be very hot since it is not reshaped while the distorted steel would burn through plastic.
To replicate it try hammering a nail into a knife
Well get yourself a thermal camera and 500 ton press and start. Channel. Lol
The synchronicity of the music along with the sound of the actuality was so spot on to be noted you can put that press in a song in the fact that tungsten dented your press what is both to me fascinating and insane I did not know that
Tungsten carbide: "You don't wanna mess with me son."
NANOMACHINES SON, THEY HARDEN ON IMPACT!
My eyes twitching and squinting while I'm watching this, like my brain thinks I'm in the same room and knows something is about to go BOOM CHAKA LAKA 😂
Glad I wasn’t the only one.
Bada Boom
KABOOM CHAKA LAKA BOOOOOOM !!!
Bro Lost His Studio Just To Break Balls 💀💀
😂😂💀
haha true! 😁😁❤❤👌👌
FR
Ayo Pause lol
Lmfao
The Tungsten was literally unbreakable under the 500 ton press, and went through the steel like butter. So was the 80mm ball, but that didn't put a literal gaping hole into it (the steel ball did too, but not nearly as much). I wonder just how much it would take to break Tungsten. I guess that's why they make military tanks out of the stuff
That 500 ton press is amazing. Yet it doesn't stand a chance against a 3 day old McDonalds french fry.
Your right
I bet that hydraulic press would stop existing if it ever came into a 5 foot radius of a 3 day old McDonald French fry
Or my girlfriends muffins!
That's not McDonald's, it's pure diamond right there 😮
Imagine the potatoes in your house there too. hahahaha
I find it funny how attempting to crushing certain strong metals breaks the hydraulic press and/or the stand instead.
30mm steel: “Oh noes I broke” 😭
80mm steel: *I don’t think so.*
80mm steel after 20 minute liquid nitrogen bath: *I'm still standing, yeah, yeah, yeah!*
Brick underneath: "Oh noes now * I * broke" TT_TT
@@Echo81Rumple83 That "brick" was a chunk of AR500 hardened steel.
Yall cringe
@@WhosJoeMMA your single comment calling them cringe is 12 times more cringe than anyone else here
@Real_uMMActually ur ghey
Dude props to STEEL!!! I've never seen anything NOT get crushed! It destroyed the studio!!!!
I only use my 500 ton press for cracking walnuts.
I use a metal nut cracker with the force of my hands to do that
And make walnut butter
That takes busting a nut to a whole new level
Court ordered?
I use it to crack Pistachios 😛
Liquid Nitrogen. ... You can tell this guy is just doing experiments to try to figure out how to destroy a Terminator.
That ball really said: “it’s Opposite Day >:)” to the studio and the camera💀
4:20 I thought Steel exploded, but not
The SpaceX Starship uses thinner stainless steel because the cryogenic cold fuel makes the steel stronger at very low temps. This is a great practical example.
That's actually what I was immediately wondering about. I thought the temperatures would make it more brittle.
@@Jake1702 y es mas frágil, mas duro y mas frágil. Lo opuesto a la fragilidad es ductilidad, no dureza.
A shame Elon won't ever get to Mars.
@@Jake1702well in theory it technically does get more brittle
No more strong, very much frágiles,
7:24
I love how it looks like there's no resistance at all. Just goes in smoothly with zero slowing or struggle.
Tha Man of Steel now has a stronger Challenger .... The Man of Tungsten 🤫
Very informative to know how those materials will react under such conditions in relation to each others
This is actually a really good analogy for how enriched plutonium can go supercriticl when in a situation where the stresses keep exponentiating from further and further pressure, until the rate of the runaway react, or in this case the microcracking and deforming of the steel balls, goes from 0 to 10 to 10,000,000,000,000 in such a fast time that it appears to the outward eye like a singular instant explosion when in reality is a compounding mass failure of micro cracks and fails that happen millions of times in less than a second which has incredible force
Great comment,never read many that are really worth reading 👌👌👌
Much appreciated my good friend!@@stephengeraghty3368
Pois creio que após a expansão há o efeito de vácuo e por isso ocorreria uma descarga elétrica cujo pico um receptor de AM detectaria, pois relâmpagos são descargas térmicas instantâneas que causam o vácuo atmosférico cuja implosão de reação é o trovão.
As above so below. The smallest boom would seem nuclear in size if u were that small, and inversely if it was a real atom bomb size boom, if u were that small it would seem the same to u.
At 3:53 "We've lost contact with him a few hours ago after this...😔"
4:08 To think, even after being dipped in _liquid nitrogen,_ the 80 mm steel ball _still survived._
I google afterward.. I was expecting it to shatter because of the cold. It turns out the extreme cold actually makes steel stronger. Something about molecular bonds being harder to separate.
@@sshah2545the action lab has done a video on this. Actually the molecules come closer so the steel ball does become harder but it should also become more brittle, ie, it's tensile strength and malleability will decrease
@@sshah2545outros objetos seriam quebradiços então há algo de resistência negativa
Terminator 2 lied to us!
@@sshah2545 When steel becomes harder, it also becomes more brittle.
That's work hardening.
You can create work hardening on a paperclip, i.e. bending it until it breaks.
UNREAL footage! When you were at 50x, I was hoping there'd be a slower one coming, and there was, 500x! Great Job!
I knew steel bearings were strong but i never imagined they'd survive this amount of abuse.
Depends where the steel balls are made
Helps you appreciate how annealed roller bearings that the wheels of your car turn on are able to last through decades of shock & severe impact out on the road
There will be examples of higher milage, but personally my mother's subaru reached 250,000 miles on the same wheel bearings before she sold the car. (A 1992 Loyale) A neighbor with an 80's Toyota truck reached 350,000 before he finally replaced the bearings during a brake job
There are different grades.
Those seen were not actually "bearings" but "valves".
Typically the ones used for load bearing are made of 455C steel and tempered to around 60 Rockwell (SUPER hard)
Carbide ones go much higher and I suspect the one that broke his setup causing the crash was Carbide not Steel. The 455 one had to be the one that shattered at the start of the video.
Bearings are used in a insane amount of heavy machinery that require a lot of wear and put a lot of abuse on them. They can take a lot, like a lot, a lot.
@@AlexBrown230 Fafnir are lifetime
The only thing that got broken in this video was his hydraulic press, multiple times.
Bro, you’re lucky it’s just the studio. If the 80mm steel ball slips, that’s basically an 80mm ballistic bullet goes straight to you.
Or in some other direction: it's got a lot of directions to choose from :)
Vdd
@@DieFlabbergast But if it chose him. He would literally have the ball go right through him and crush the bones it touched
If it slips😂
It would open a hole on the wall
This was actually the video i was looking for. Never seen nothing take down the press until this video💯
your tests are amazing.
we use the same system in our concrete block machines to press mortar and shape it to molds. our pressure is maximum 200 bars.
200 bar ~= 2900 psi
4:42 hope your insurance company never sees this 😂
Didn't know there were so many ways to destroy a hydraulic press! 🤣
😆😆
He didn't try a fruitcake!!💣🔥😸
Grenade vs Hydraulic press
So these are “balls of steel”?
O melhor vídeo de esmagamentos que eu já vi.
Sempre me perguntei o quanto aguentariam esses materiais da prensa. E hoje vejo que também possuem o seu limite de resistência.
Parabéns pela experiência. E espero que a câmera e a lente não tenham quebrado!
Holy crap! I think you just made an earthquake! 😲
I cannot believe the 80mm ball split the plate you was crushing it on. The fact most of your press tools were split by these is a testament to how hard they are
Probably the greatest thing I've ever watched
Wow that was epic, glad u had the countdown my nerves were going haywire
0:01 "WARNING Do not repeat at home what you saw in this video"
Ah shoot, I was just about to with the 500 ton hydraulic press I store in my garage
This is what happens when unstoppable force meets immovable object
No. Something always gave way.
@@chrisatkins7959 Yes, everything else.
It bores a hole straight through it! Genius!
Insane to think how dangerous these experiments can be. Great way to meet your maker.
What do you mean don’t try this at home i just set up a 500 ton press in the living room do you know how long it took to convince the wife it was a functional piece of furniture 😂
I watch tv on mine
1:57 *Wow,* you *know* it’s tough when even the *hydraulic press* says “If it doesn’t wanna break, it doesn’t wanna break.”!
Love this video but I guess I missed the switch between the comparative 30mm and 80mm tungsten Bearings. And what materials are the top compression component made from?
Amazing! Commercial aircraft typically use only 3 super strong hydraulic jacks to lift an aircraft weighing in excess of 400,00 lbs without fuel, in this case DC-10, MD-11. With three separate support arms, with a center column supporting the load, there is only a very small point of contact, roughly 2.5 inches with a center pin in the middle.
Ty. No one actually compared what 500ton lbs actually equals out too. Lol, kinda like Americans like to compare things to football fields.
I am an Engineer.I found the video very interesting.
The hydrolic press has met it's match and then some!
That was a real ball buster. Ive never seen a thick piece of steel blow apart like that.
your commitment to break balls is truly amazing and inspirational
🤨
I'm 43. This video shaved 35 years off of my life for 9 minutes... 👏🏿
I was surprised when the first steel bearing shattered. I predicted it would flatten. I think the ceramic bearing surprised me the most!
Ultra hardened tool steels don't flex, they break.
@jakefriesenjake
Because the steel in ball bearings is so unbelievably hard it's a favorite for today's lunatic knife makers to make Damascus steel utilizing ball bearings among other things. If you haven't seen any of those videos I would highly recommend them. Think of it, turning Ultra hard steel ball bearings into knife blades that look like wood grain. If you've never seen Damascus steel you're missing something.
@@Smedley1947 oh I've seen my share of knife making vids. They are beautiful.
@@Smedley1947I collect knives and specialize in different types of steel. I use a dovpo straight razor to shave. Lol. I know steels. And tho those Damascus blades are pretty, it isn't true Damascus. Just saying, I wish they had used a different word for it to not confuse the types.
No matter how many tons, the surface which the object is placed in never breaks
Me gustan mucho sus videos. Por favor siga haciendo más y más. Para mí es muy relajante verlos
4:34 Ah, that's why I felt a little earthquake in New York recently
I like this video on how to break your tool the pro way !!!
Man, i never realized how tough tungsten can be! I wonder if it went to high school with diamond?
What is the piston and block made of? What is it’s hardness? If seems unphased by 150tons.
Esse merece um grande like imagine que ia destruir o estúdio gravação na hora que voce colocou nitrogênio líquido 😂😂😂
Very good!!!!
Wow, how crazy?!! Incredible. Love this
@Crazy Hydraulic Press: you didn't cool down your sphere - you need to keep checking LN2 level and topping up your tank so that the sphere remains submerged at all times if you want to cool it down. Keep in mind that -190 is LN2 temp, not the temp your sphere will reach internally (definitely not in 20 mins for an object of that size/density). It is extemely unlikely you'll ever reach -190 unless in ultra high vacuum (i.e. 1*10^-7 mbars). Plus if you don't top up constantly you get ice forming on the surface (very visible in 3.19), making your sphere v slippery and a h&s risk. Try again. Also would recommend using a thermocouple (if you can) to check sphere's temp otherwise you can't know where you're at. To cool down objects of this size/density, I'd say you'd have to wait a min of 60 to 90 mins approx but do some research and test it out yourself to optimize it accordingly.
Almost a supernova. 😂 Epic! Hope your studio is OK.
Great educative video. Thank you👍🏻 I think Its the time to update your equipments!👌🏻
Try doing a Christmas tree under a big press for the holidays!
This experiment should be shown to the prosthetic hip industry. Perhaps it would help them better understand the best materials to use when manufacturing prosthetic hip components.
That feeling of it will explode in your face in any moment.
It's seems like you're pretty familiar with that feeling lmao
I know a hero when I see one
Not even a word spoken during the video
Letting us take it all in by ourselves
After 6:16, I think you're going to need a new press.
Metal balls: "Damn that thing shmooshed us."
t-800: "I know how you feel."
Can you get your hands on some depleted uranium? I'm sure you must have some laying around somewhere XD
Here in 1955 it’s a little hard to come by…
500 ton press: tungsten carbide, I will crush you!!
TC: haha that's adorable bud, have fun playing!
Watching this video my Heartbeat went up few beats.Damn it was scary & thrilling.
Be that hard that nothing can press you down,instead break up who press you down💪🏻
Btw how did such motivation came in my mind idk😂😂
Always great vids but you need a true high frame rate camera, shooting real 240FPS video, that would be awesome
Interesting to me is that you seem to be able to handle all the pieces by hand after the press activity. I would think there would be a lot of heat generated by the process. Maybe some thing to add...
The workpieces are fairly large, and therefore able to absorb a fair amount of heat.
A lot of editing goes into the video, I'm sure they cut out what's probably at least several minutes of waiting for the stuff to cool down before handling it. I seriously doubt they go touch the stuff immediately.
Question is what are the press's anvils made of? They have to be harder than anything they are pressing, no?
If a man has [balls] of steel, nothing can break him.
This does give new meaning to "got my balls in a vise."
Ele é o Clark Kent mas é segredo.
CHP: Wow! That's pretty strong! Now let's try breaking frozen ball of 80mm solid steel after 20 minutes in liquid nitrogen...
Universe: _implodes_
What kind of heat temperatures when the objects are forced together by the press?
500 TON HYDRAULIC PRESS : "I will breal you !"
80 mm steel ball : " Uh uh uh. No. I, will break you."
You do good work.
True! 💙💙😉😉❤❤
It hits all four corners of the frame perfectly, nice
That big steel ball chilled released a lot of energy when it burst.
The steel ball was intact. The 10 cm steel plate under it is what broke into pieces and damaged the studio.
I hope you don't mean what I think you mean. Otherwise technically it had all the same energy on it while pressed as when it burst. It just did not release any energy. Keep in mind when something that does not mean it heated up. Thats a chemical reaction not a physical one
@@danielciocilteu3545 I thought it was a brick?
@@aheadsounds2522pura Física, pois houve uma relaxação, e osciladores de relaxação têm esse princípio, mesmo tendo havido apenas um impulso ou ciclo na onda gerada. É tal como um monjolo, ou mesmo o rangir de uma porta, ou o eventual som do surto do crescimento de uma bananeira
That ball : "I am not in danger, I am the danger"
The steel ball won 🥇
Usually on videos of hydraulic pressings do people comment on satisfying it is to see things getting destroyed by the press but it's never that way for me.
But this,seeing unbreakable material damaging the hydraulic press,is very satisfying.
"Do not repeat at home"!?! Who in Hell has a 500-ton press in their house?
You mean to tell me you DON'T have 500 ton hydraulic press? That's rough buddy...
Behind on the times
The testbed is the real MVP. It never breaks.
I'm watching this wearing safety glasses 🤣
Ha Ha Ha!!! That Stand Blowing Up was Hilarious! 😂😂😂!
Phenomenal, broke the block!
“Now go home and see if you can break your shinebox!”😂