Unfortunately I have missed the disclaimer and have done exactly this at home. Just by accident I have applied 600 tons of pressure to my metal. What shall I do now?
@@yawifeinmedms9438 Sure the Nokia 3310 haved a secred OLED Screen wih Infinitive, collors, Resolution , brightness and 6g you must Only enter the right secred Code 😉
400degF may be still good, but the "fun" starts above 450degC, where the recrystalization starts. Not F, but C. That is not the same. And at 800degC pretty much any construction steel becomes like butter. And common house fires (fueled by carpets, furniture,...) are able to go way above that. The purpose of the heat protection "paint" is to absorb the heat (by decomposing itself) for at least the time needed to evacuate people. But when all the burning things became soaked with kerosene and also burning two floors below, the extra heat make the coating to decompose way faster... Well, we are talking about quite a few mm thick layer by the way, so calling it a "paint" is a bit stretch, but so be it...
the thing about steels is once you heat it to above 400c, you've ruined any hardness or tempering properties it had beforehand, even if you allow it to cool back down to ambient room temperature. it will be roughly as soft and malleable as cold mild steel unless you can reharden and re temper it, which for something that big and thick, is really hard to do.
This is the key thing “9-11 truther’s” fail to grasp. It’s entirely possible to hit 450c in a contained fire. You don’t need to melt steel to ruin it’s structural properties, just get it to ~450c/850f. Even 400c would likely be sufficient.
@@geoffstrickler how would the foundation get to 450 degrees if the fire extended to the top floors? And how did building 7 fall from the bottom up when nothing struck it?
“I don’t get a real benefit” from watching this, besides entertainment and learning a thing or 2! But love these videos and almost stop doing anything to watch them 😂! Thankful for all the time, effort and money invested to bring these videos to us! 👍🏼
You're the first yt channel creator to break a sledgehammer I've seen so far. Congratulations. The released every from that was amazing. Well done. Subbed you too.
Interesting, but more detail would be useful, such as the alloy of the metal, the hardness or temper. This could also be stated as the grade, for bolts & nuts.
At 07:55 the color suddenly changes to black... interesting! And one can also see that metal at 800°C, the strength drops dramatically, not only for thrusting, but also bending and pulling forces. Remember something....?
so open air burned jet fuel which is about 1100C … might have had an affect on that something causing that what it supposedly could not and be responsible for the sudden drop in the continuity of ‘being alive’ of those people in there. i am fairly sure that the floors above that point were heavier than 500tonnes… and the weakened structure was able to go downstairs after a while… hmmm its a sad sad event :( may all rest in peace.
I was trying to follow the gauge but didn't get the readngs you gave. Is there some kind of constant or multiplier or other adjustment that has to be applied to the gauge to get the accurate reading?
It would be interesting to take the same type of nuts and go to the opposite extreme. How much more brittle would they be after immersion in liquid nitrogen?
@@truthhunterhawk3932 essentially, rapid cooling creates stress within the metal's inner structure. This does make it brittle, but it also makes it very hard since the stresses prevent the grains inside from moving
@@TheRatLikerThey’d be harder. But weaker, it will instantly explode once it goes like a few millimetres compressed, heat makes things flexible, cold makes things hard but explosive
I would really like to know how the strenght is teperature-dependend. Is there a difference if you heat it up to only 200 degrees ? I think this is a temperature which could happen to a hammer (seldom, but possible) if you work on forging steel.
If there wasn't, why would a blacksmith put his workpiece right into the middle of the hearth and even increase the temperature by pumping air into it?
Alot of metals are strengthened by work hardening, which is essentially where sliding atoms (very simplified explination of dislocations) get stuck and restrict the movement of eachother and make it harder for the material to deform. Increase strength make it less ductile. When you increase temperature these dislocations can defuse and they basically aren't in eachothers way anymore. So effectively you can heat the metal and cool it again and you will get a similar effect. Another factor, significant but not as significant is that each atom has more energy in hotter temperatures which means less mechanical stress (force over area) is needed to be applied for it the dislocations to move and the material to deform
Everything, absolutely everything, is compressible. If the compressed thing is still in its springy region, its a spring. The base, workable and press pieces on the table all get compressed. When the victim fails, the springs, well, spring with absolutely massive amounts of energy.
This is THE PRESS, beautifull and enchanty power, few things coud resist that. Russian and american quality things, like this giant wrench. Congrats for the wonderfull work, dude!
Hello again Chip! Wow those are some big nuts you have there. Not to be trifled with. In the cold press test I could almost hear the nut asking for a nice hard bolt to be wound in. It would probably only flex .2 mm with those threads. The nut would be hard enough not to spread around the theoretical bolt. We could see the paint on your press adaptor plate bubbling from the heat transfer. Was that enough to remove the hardness from it? The small kiln for sure was way over 800 c. Looked like twice that. Nice work, we miss the "Here we go!" Good luck.
they aren't. You need to repair them regularly, if you use them above certain pressures. Other than that, they are just build out of thick materials and use really strong cogs and transmissions to create the pressure.
J'ai le même thermomètre laser et 800°C est le maximum qu'il puisse mesurer... la pièce métallique doit faire bien plus de 800°C dans sa partie basse...
0:02 He must’ve stole the nuts, bolts and screws Putin’s nuclear weapons are made with, Koreas nuclear weapons, America’s word war tanks. This guy very likely has an anchor, a scimitar, a machine gun, military uniform in order to get all this stuff o_O And at 1:42 just from cracking that 1st thing, he easily made all the bugs possibly under his floors or within his walls wake up Colorado’s Military saw on their Richter scale a 1.0 lvl noise was just heard.
Развлечения
Unfortunately I have missed the disclaimer and have done exactly this at home. Just by accident I have applied 600 tons of pressure to my metal. What shall I do now?
I did the same thing...at my neighbors house so I wouldn't break any rules.
@@anonymous11011 For how long? 😁
Just stop faking
@@pranavbagrecha3423 It's a fucking joke
@@pranavbagrecha3423 hey, jokes just called. They want their existence back.
"Don't repeat this at home"
Me: Yeah I should keep that hydraulic press back in my pocket.
Repeat it at someone else's home.😁
Yea cuz it wont he at home
Not to mention the means to heat metal to 800°C.
មលលោ៩៨៨៨៩៩៩
I don't even have the hammer
5:48 That jump scare was better than the ones in horror games and movies 🎬
Only the Nokia 3310 could survive that
Exactly 🥵🥵😂😂
Nail it bro💯
Those were good phones, nokia should resurect
Do you watch this video with old ass nokia?
@@yawifeinmedms9438 Sure the Nokia 3310 haved a secred OLED Screen wih Infinitive, collors, Resolution , brightness and 6g you must Only enter the right secred Code 😉
These videos are also educational. This is why heat resistant paint is so important for steel constructions.
Need to tell that to 9-11 conspiracy theorists. Steel doesn't have to come anywhere near melting to lose strength and fail.
400degF may be still good, but the "fun" starts above 450degC, where the recrystalization starts. Not F, but C. That is not the same. And at 800degC pretty much any construction steel becomes like butter. And common house fires (fueled by carpets, furniture,...) are able to go way above that. The purpose of the heat protection "paint" is to absorb the heat (by decomposing itself) for at least the time needed to evacuate people. But when all the burning things became soaked with kerosene and also burning two floors below, the extra heat make the coating to decompose way faster...
Well, we are talking about quite a few mm thick layer by the way, so calling it a "paint" is a bit stretch, but so be it...
These videos are so satisfying to watch. I love guessing how things will break
same, i love seeing nuts get squished via hydraulic press
@@lolzhunter same bro
@@lolzhunter that’s what she said
Anyways the sledge broke like Thor’s hammer mjolnir
Same i love gussing hoe many tons it takes to destroy the object
1:51 i like how the other iron bar seems so happy seing his friend sliced 2. Like
"Yaayyy finally, plis do it again"
Impressive how the sledgehammer able to withstand that much of pressure!
Good you warned me to not repeat at home. I just wanted to pick my 500 ton hydraulic press out of the wardrobe to try it out. You saved my life ;)
the thing about steels is once you heat it to above 400c, you've ruined any hardness or tempering properties it had beforehand, even if you allow it to cool back down to ambient room temperature. it will be roughly as soft and malleable as cold mild steel unless you can reharden and re temper it, which for something that big and thick, is really hard to do.
Were the Twin towers heated to above 400c during 911?
How you know this
@@xyoungdipsetx smithing channels i guess
This is the key thing “9-11 truther’s” fail to grasp. It’s entirely possible to hit 450c in a contained fire. You don’t need to melt steel to ruin it’s structural properties, just get it to ~450c/850f. Even 400c would likely be sufficient.
@@geoffstrickler how would the foundation get to 450 degrees if the fire extended to the top floors? And how did building 7 fall from the bottom up when nothing struck it?
“I don’t get a real benefit” from watching this, besides entertainment and learning a thing or 2! But love these videos and almost stop doing anything to watch them 😂! Thankful for all the time, effort and money invested to bring these videos to us! 👍🏼
"Don't try this at home"
Yeah sure because I just happen to have an industrial press in my living room
You're the first yt channel creator to break a sledgehammer I've seen so far. Congratulations. The released every from that was amazing. Well done. Subbed you too.
I always get a strange feeling when it looks like it's about to break
Want to hide myself
Interesting, but more detail would be useful, such as the alloy of the metal, the hardness or temper. This could also be stated as the grade, for bolts & nuts.
So if anyone ever had any doubt about heat affecting steel, I guess now you know.
How well does the fire-resistant Steel + Molybdenum used in large buildings perform?
Guy: do not try this in home
Me: *hey mom can i buy 500 ton hydraulic press?*
Mom: wth is that thing?
😂😂😂❤
your videos are great, you work hard
no joke these have some good jump scares
Great video, what if you heat the compressed steel to 800 degree again and apply the same 500T?
There must be a psychological reason why I like to watch hydraulic press videos
resistance of things
Seeing the ultimate demise of objects as they get slowly crushed to death, with no return of hope.
What
repressed homosexuality
Perhaps you're under tremendous pressure?
Человек любит разрушать - поэтому
Wow can’t believe how powerful that press is 🤯
Nothing beats the almighty press 😎👊
500 tons is alot thats like putting 30 trucks in one small area on whatever is under it
@@TIMOTHYEET69420thats even scarier cause its concentrated into one small area
@@kingofthegod8983 nokia 3310 🤣
@@TIMOTHYEET69420more like 50-100 tanker trucks.
That hammer exhibited some very nice fine grain, nice steel.
At 07:55 the color suddenly changes to black... interesting!
And one can also see that metal at 800°C, the strength drops dramatically, not only for thrusting, but also bending and pulling forces. Remember something....?
so open air burned jet fuel which is about 1100C … might have had an affect on that something causing that what it supposedly could not and be responsible for the sudden drop in the continuity of ‘being alive’ of those people in there.
i am fairly sure that the floors above that point were heavier than 500tonnes… and the weakened structure was able to go downstairs after a while… hmmm
its a sad sad event :( may all rest in peace.
I love how the sparks flew out of the mallet.
It's my first time seeing something not break under the hydrolic press after a steel sphere
Are you able to get liquid nitrogen? I'm curious to see the strength of metals at extremely low temperatures.
That be cool
@@xyoungdipsetx quite literally
At −195.8 °C (boiling point) the metal would exhibit extreme brittleness
@@sheerluckholmes5468 exactly 😏
Steel retains less then 30% strength at those temps so this doesnt surprise me in the least.
I was trying to follow the gauge but didn't get the readngs you gave. Is there some kind of constant or multiplier or other adjustment that has to be applied to the gauge to get the accurate reading?
Congrats in advance on a million subscribers. Been a fan since day 1. So satisfying to watch.
Prove it
@@Koshanitsu what he gonna prove it with 😂😂
@@Vexxy197 a video
If you said day 1 are you from 100 BC I know the answers probably no
@@Pensilvania_good 100 BC isn't day one.
It would be interesting to take the same type of nuts and go to the opposite extreme. How much more brittle would they be after immersion in liquid nitrogen?
They would actually become stronger.
@@TheRatLiker really? Whys that?
As soon as the press started imparting energy into them they would rapidly heat up
@@truthhunterhawk3932 essentially, rapid cooling creates stress within the metal's inner structure. This does make it brittle, but it also makes it very hard since the stresses prevent the grains inside from moving
@@TheRatLikerThey’d be harder. But weaker, it will instantly explode once it goes like a few millimetres compressed, heat makes things flexible, cold makes things hard but explosive
I would really like to know how the strenght is teperature-dependend. Is there a difference if you heat it up to only 200 degrees ?
I think this is a temperature which could happen to a hammer (seldom, but possible) if you work on forging steel.
If there wasn't, why would a blacksmith put his workpiece right into the middle of the hearth and even increase the temperature by pumping air into it?
Alot of metals are strengthened by work hardening, which is essentially where sliding atoms (very simplified explination of dislocations) get stuck and restrict the movement of eachother and make it harder for the material to deform. Increase strength make it less ductile.
When you increase temperature these dislocations can defuse and they basically aren't in eachothers way anymore. So effectively you can heat the metal and cool it again and you will get a similar effect.
Another factor, significant but not as significant is that each atom has more energy in hotter temperatures which means less mechanical stress (force over area) is needed to be applied for it the dislocations to move and the material to deform
The guy got a hydraulic press as a birthday gift. Since then he has been pressing anything he can pay his hands on.
I really liked watching the red hot steel blocks get squished with less weight than the cool pieces!😊👍
Now I understand why you don't have any stress and you enjoy going to work
Wow! En serio por la forma curva de las tuercas pensé que no les pasaría nada
5:48 I was so scared that I even turned off my phone XDDDDDDDDDDDDDDDDDD
Talk about ‘slow forged’ metal. It would be interesting to know what properties these have if turned into tools?
Из нагретой гайки, получилась прикольная пепельница.
Good experiment and be safe, also well done
0:53 "Maxwell The Cat"
5:48 , damn that jumpscare doe .
i always wondered why when something fails or get out of the press the support or the base is flying up
Everything, absolutely everything, is compressible.
If the compressed thing is still in its springy region, its a spring.
The base, workable and press pieces on the table all get compressed. When the victim fails, the springs, well, spring with absolutely massive amounts of energy.
The whole world shakes when something tough breaks with such force
Thank you 🙏 i wonder 💭 I never Owen it! ⚒⚒. It is heavy too.great 👍video 🎥keep break-’em 😅
wow I was very surprised to see the impact of the hammer which was very fast 🤯
It's interesting whatever you press gets damaged except for the press pads. Perhaps you should also try an egg painted in yellow and black.
That heated nut was awesome
The one thing that will save us from a robot apocalypse
Пора делать пресс на 10 000 тонн.
Muito satisfatório
Every time I see these I get the music of the terminator being crushed run through my head.
The force of these objects are so incredible, I'm just glad nobody gets hurt. 👍😃👍
The mallet exploding literally made me jump lmao
It amazes me how they pack 500 tonnes of pressure into such a small area
I´ll be doing it at my Friend´s Home, then.
Great work
“Do not repeat this at home” 🤔 oh wait…let get out my 500 ton hydraulic press. 😛
This is THE PRESS, beautifull and enchanty power, few things coud resist that. Russian and american quality things, like this giant wrench. Congrats for the wonderfull work, dude!
Tell me pleace what russia produce , wich quality things ??? Death and war???
Hello again Chip! Wow those are some big nuts you have there. Not to be trifled with.
In the cold press test I could almost hear the nut asking for a nice hard bolt to be wound in. It would probably only flex .2 mm with those threads. The nut would be hard enough not to spread around the theoretical bolt.
We could see the paint on your press adaptor plate bubbling from the heat transfer. Was that enough to remove the hardness from it? The small kiln for sure was way over 800 c. Looked like twice that.
Nice work, we miss the "Here we go!" Good luck.
"Big nuts" 💀
Remember kids, metal becomes edible at 800c
Bro got his own springlocks
Who else shocked when the hammer broke? 😂😂😂
I got shocked when the hammer broke the press 🤣
I wonder how presses are built so that they don’t break themselves.
they aren't. You need to repair them regularly, if you use them above certain pressures. Other than that, they are just build out of thick materials and use really strong cogs and transmissions to create the pressure.
Muy satisfactorio y relajante
This video is nuts!
Who will be having a hydraulic press in home😂
It's amazing how something small can still creat such shock waves.
what shockwaves are you seeing? lol
I like the warning at the beginning: "Do not repeat at home...."
Yeah, everyone has a 500ton hydraulic press in the basement :)
0:31 this man has unlocked the deez nutz achievement.
J'ai le même thermomètre laser et 800°C est le maximum qu'il puisse mesurer... la pièce métallique doit faire bien plus de 800°C dans sa partie basse...
These are Soo satisfying to watch
"Do not repeat at home" - like everyone has a "Mr 500 Ton Press" in their kitchen. lol
Love it!❤
that heated bolt is now Modern Art, bet you could sell it ;)
Its very dangerous.
Thank you for the warning not to repeat it at home. But what do you think how many of the viewers have such a hydraulic press at home?
OK i' ll try to not have a hydraulic press at home thxs 😂
He thought it was a normal hammer! And ended up pressing Thor's hammer! Rookie mistake!
!
"Do not repeat at home"
Damn i was about to pull my hydraulic press and my 800° material out of my pocket
The sledgehammer was downright scary
How do you keep your foundation from cracking or being damaged?
I had a thought that the sledgehammer before it broke was basically a Thors Hammer. No one on earth would have been able to move it.
wunba here?? wtf that was unexpected
Yes❤❤❤❤❤❤🎉🎉🎉😂😂😂😅😅😢😢
What the actual frick, WUMBA HERE??!!
"Do not repeat at home". OK ,thank you for the advice. I won´t use my personal 500 ton hidraulic press for this purpose.
Can you make hidraulic pressure vs hidraulic pressure?
I like how he collected data thru each phase of the experiment
There’s no way that machine can apply 1,000,000 lbs of pressure
Why?
Jesus Christ is Lord, King and Our Savior!
0:02 He must’ve stole the nuts, bolts and screws Putin’s nuclear weapons are made with, Koreas nuclear weapons, America’s word war tanks.
This guy very likely has an anchor, a scimitar, a machine gun, military uniform in order to get all this stuff o_O
And at 1:42 just from cracking that 1st thing, he easily made all the bugs possibly under his floors or within his walls wake up Colorado’s Military saw on their Richter scale a 1.0 lvl noise was just heard.
Amen!🙏
L bozo
Thanks for the farce!!
What were hydraulic presses supposed to do again?
Thor very much dislikes this video! - Awesome upload, very relaxing watching your experiments
Such a great visualization of the issue with the "Jet fuel can't melt steel beams" claim.
damn that’s nuts
from what material is this hydraulik press
just when thors hammer broke
this video has more jumpscare than most of horror videos 😂
OMG, it’s just like Thor’s hammer! And it exploded with lightening!
800C + 500T = art
What type of metal is the press made from?