The guys that work the steel manually have real talent. The maintenance on the machinery would be mindblowing. No wonder everything costs so much, initial investments must be huge. Long way from a blacksmith.
@@mickcarson8504 I always wondered is the pay good!? I personally thought it would be, cause of the work and dangers. But hell I've worked dangerous jobs and been paid straight shit!!! Lol but for real wanted to know if it was good pay with benefits 401K plans insurance etc.
@@Crumbaa I mean right!?! They have got to be getting paid pretty good with hella good benefits!!! I googled it and it's good but I wanna know from a person cause you cant always trust that BS like I googled about machinist pay and it's all over the place and I got a buddy who gets paid $38 an hour and been there for 3 years and started at $30 off rip!!! I guess it depends for what type and the area ofcourse!!
@@Suth3rnHawaiian honestly I feel like they probably aren’t making anywhere near as much as they should. it’s the guy who’s up in an AC office with computer screens in front of him who is raking it in.
Its amazing that a hammer increases the temperature of the already glowing hot metal, also how blacksmiths figured it out too with just a basic hand held hammer
I worked at a forge press factory for a few months making Aerospace and car parts.. hardest job i ever had, taught me a lot of humility and to be grateful i dont have to do that anymore haha
Yeah I was wondering if they added that section to show the difference of the hand forging versus their big machines, when I heard the voices I realize they had sped up the video as was my suspicion.
@@KA-pq3yz how would you know that? think of where this is and the fact every profession has got rules and regulation they got to follow and it seems to me most people who are in charge and got there by hard work like the ones they are are in charge over really do care for people now that's not the same for every situation but y'all always love to assume every rich guy or guy in power is only doing it for money and does not care about anything else a pretty naive way of think if you ask me perhaps even ignorant. You may be right but who knows respect all
@@KA-pq3yz My point still stands not every company nor country has the same safety precautions. Also these are professionals Im almost certain but hey you are free to judge as I am
The hydraulic machines in the first segment are pretty impressive. The guys doing the hammering in the second segment look like they have a hard job. Loud, hot and physically demanding.
0:10 изготовление кольца на раскаточном многовалковом станке 2:45 китайцы куют на улице в рукопашную 5:47 изготовление железнодорожного колеса 7:25 рекламное видео завода 9:13 изготовление вала 11:21 какая-то левая труба 11:45 изготовление детали (кочерга)
0:10 making a ring on a multi-roll mill 2:45 the Chinese forge melee on the street 5:47 making a railway wheel 7:25 advertising video of the factory 9:13 making a shaft 11:21 pipe 11:45 making a part
@@maxime121 hahaha google translate makes the Chinese forge part unexpectedly funny🤣🤣 “Chinese forge on the street in hand-to-hand combat” that’s good stuff
amazing how long the steel remains red hot. It’s bashed into shape and then moved to another machine to be shaped some more. Pesumably the large size retains the heat.
“Surface area to volume ratio” is the phenomenon at play here. As objects get bigger, their volume grows faster than their surface area. This is why a large chuck of stew can stay so hot for so long, there’s just a lot of hot steel and not much surface area for the heat to escape. This is also why the most efficient engines in the world are also the largest. As a cylinder gets bigger, you get a lot more volume (power) but not a lot more surface area (lost efficiency by losing heat to the water jacket)
Conversely, this is what explains the shape of heat sinks. All those fins create a huge surface area for a tiny amount of volume. So they are optimized to shed heat as fast as possible. The opposite of a heat sink would be a sphere.
You have to be there to understand the immense heat coming off that steel. I’ve had the opportunity to tour facilities in the UK as well as several plants here in the USA
We use to have a aluminum mill in our area that their electric bill alone was in excess of a million dollars monthly. Not factoring in natural gas use. Always found this stuff very interesting.
@@rodgerwoods4971 and people believe the windmills have the horsepower (or wattage) to heat or melt parts that big. The electrodes "wires" are anywhere from 6 to 14 inches in diameter just to conduct the necessary juice, and thats just one...
@@jeffwombold9167 Yes sir. And to deliver the amperage needed is massive. And as you stated, windmills, solar panels, etc isn't going to cut it. And the mill hammers are awesome. Not sure of the pressure used, but it makes easy work of it.
Recently there was a story about a steel worker who tripped and fell into a vat of molten steel. The accident took place at a Caterpillar factory in Illinois. The only saving grace, if there is one, is that the man didn't suffer as he was instantly incinerated.
I'm impressed with these guys that drive these specialized machines that manipulate the huge hot metal. They become one with the machine. It's merely an extension of their own arm.
@@francescopaolociminale5258 Hot forging is sometimes dangerouse, and the large forging in the video is a high-risk industry. But the development of automated machinery can keep workers away from danger.
@@jonathonvince561 Well, no, the steel has been made. This is about forging it into a product. Forging strengthens steel, eliminates voids and increases the homogeneity of the product, but regardless, this video isn’t about “making” steel.
I have some questions for an expert: What are these crusts that fall off from the hot iron piece when they are put under pressure? Since these crusts are clearly a loss of the production, do they fall into account during the process? And would these fall off endlessly if the pressing process would go on for too long?
The high temperature causes oxygen in the air to join with the steel surface much faster than it would rust the steel at normal temperature. So as the steel cools, the scale forms more slowly. Yes, the loss of scale is small but an expected part of the process. Remember that most forms of iron oxide are many times less dense (take up more space per gram) than iron itself. Usually at least one surface is machined to an exact dimension after forging, sometimes the entire surface of the part is machined, mostly depending on which surfaces touch other parts (but also for cosmetic reasons if a customer can see the surface). So the requirement is to leave enough metal to cut the rough "as-forged" surface away, not to forge it to the exact final dimension ("net-shape").
I do _not_ work at a forge but I _was_ wondering; what is the deal with the stuff that falls off the side of the nugget when it's being squashed? 1:02 🤔
Not much.. It will sink deep and all the vapor will condense on the way to the surface. You MAYBE find some unusual warm water on the surface, but that's it.
@@jackmclane1826 If you dropped on the size of a house maybe you’d get a reaction chain of fire and flames in the water. But besides that it would all disappear in less than a minute or so. First the ocean is pretty cool or cold in some areas. Second this is steel and no matter how big the object it still will cool down rather quickly. Poor fishes though
@@spartanalphamode2987 I'd disagree to the cooldown speed. The Leidenfrost effect will cover it in a layer of steam and insulate it for quite a long while. Certainly in the range of several minutes. Of course it depends on how deep the water is, because of the pressure that would hold down the steam.
I stand in both awe and horror. I'm awed by the creativity, intelligence, labour, and skill that went into doing what I saw in this video. Yet I cower in horror when I think of the likely consequences those traits will have on human life and life in general.
God why can't every man or women be blessed to be this intelligent at know-how and getting the math-equations correct probably the 1st time at just exactly the size and shape of molten steel needed to end up with that finished product.... what a great video...
"What is man that thou art mindful of him, or the son of man that thou visits him? Behold he is a little lower than the angels. Thou hast crowned him with honor and glory."
Depends on the wattage needed. The trick with Green Energy is to use it to pump water up hill into a lake and let it out over hydro. $0.03-$0.05 kilowatt.
@@radwizard Fair point - I was involved in pumped hydro storage many years ago. Do-able for domestic, if you have suitable terrain but crikey, for large industrial? - they need to operate 24/7 so that would need a serious solar/wind set-up...
@@bryanreidsands6854 Indeed, I think they make use of geothermal sources in Iceland - but I doubt they'd license a major industrial plant. Incidentally, some recent engineering news states that China is about to commission its first thorium molten salt reactor. Now that really is a game changer. Just a pity the west has sat on that technology for over 50years!!! (I doubt it will get a mention on the MSM)
... صار "الحديد" و ما أدراك ما الحديد داخل هذه الأتون "الأفران" و أمام هذه الآلات الجبارة و كأنه عجين رخو يشكلون منه ما يريدون من وسائل و أدوات مختلفة متنوعة.. يد عاملة قليلة.. آلات ميكانيكية عملاقة تتولى أصعب المهمات... و (متفرِّجٌ"منبهرٌ مندهش مشدوهٌ لعظمة ما يشاهد و يُعاين و لا يسعه إلا أن يقول (تبارك الله ربُّ العالمين... مهندسون و عمال أكفاء أشدَّاءُ متعلِّمون... بارك الله في عقولهم و صحاتهم و داموا لخدمة الإنسانية جمعاء... /آمنْتُ بالعلم الذي///لولاه لم تكُ للقرود معارجُ أو مَخْبَرُ...... "محمد الحلوي" 👍👍👍👍👍👍👍👍👍👍👍
A lineage of smaller machines going all the way back to the first human who figured out that you if you placed this shiny rock in a fire, it would melt out a substance that was harder than the rock that it came out of and could be shaped into useful things.
The evolution of tooling is fascinating. For instance, how did they make the first large hammers or lathes to make the first large bearings and wheel sprockets, or anything else? It's kind of a chicken and egg situation.
It's not, with bad tools you can make better ones. A hammer can be forged with stones. It won't be a good hammer, but it'll allow you to make a better one.
I thought it would be appropriate to bring this up: I think there's this one method they use to recycle metal, they heat up a pile of scrap metal and then a large press batters the scrap metal, deforming it into a typically large cube. Its kind of similar to what you see in the video.
I find it so satisfying watching steel being worked and it really hasn’t changed much if you think about it. Get steel really hot and hit with a hammer…Just a much larger hammer these days lol.
Currently watching this at 4am no regrets
Well it’s 8:50pm got to be up at 1am no regrets lol
7:17am. Many regrets.
3:30am no ragrets
4:36
5am here
The guys that work the steel manually have real talent. The maintenance on the machinery would be mindblowing. No wonder everything costs so much, initial investments must be huge. Long way from a blacksmith.
Things have been going up in prices since the beginning of time.
Son Herreros hijos de Hefesto. Trabajan como Dioses y Vulcano los inspira.
So fast and dangerous. Respect to the men who do it for a living.
I used to do that job a long time ago with Repco Forge. The hammers were huge. The heat was unbearable. You sweat through all seasons.
@@mickcarson8504 I always wondered is the pay good!? I personally thought it would be, cause of the work and dangers. But hell I've worked dangerous jobs and been paid straight shit!!! Lol but for real wanted to know if it was good pay with benefits 401K plans insurance etc.
@@Suth3rnHawaiian I wonder this too
@@Crumbaa I mean right!?! They have got to be getting paid pretty good with hella good benefits!!! I googled it and it's good but I wanna know from a person cause you cant always trust that BS like I googled about machinist pay and it's all over the place and I got a buddy who gets paid $38 an hour and been there for 3 years and started at $30 off rip!!! I guess it depends for what type and the area ofcourse!!
@@Suth3rnHawaiian honestly I feel like they probably aren’t making anywhere near as much as they should. it’s the guy who’s up in an AC office with computer screens in front of him who is raking it in.
I love it. Man learning to shape metal according to his will is an incredible feat.
That's one of those things that separate us from the rest of the Animal Kingdom. There are many others of course.
@@johnarmenta2199👏🤝🙌🙌
The energy used in these processes is astounding.
🗿🗿🗿
Windmills will handle it just fiiiiine. 😐
@@worthington5687 😄
@@worthington5687 hahahaha
-____- nope a windmill aint enough they probably use a gigawatt or a megawatt
Its amazing that a hammer increases the temperature of the already glowing hot metal, also how blacksmiths figured it out too with just a basic hand held hammer
Conservation of energy. We hear about it in school but it's cooler to see it in action
With how much force is the hammer hitting the metal ?
@@saitamabeatsgoku1960 I’m going to say about Tree Fiddy
About 90% get converted to heat, only 10% into plastic deformation.
Never thought of that, thanks.
I worked at a forge press factory for a few months making Aerospace and car parts.. hardest job i ever had, taught me a lot of humility and to be grateful i dont have to do that anymore haha
I HEARD STEEL WORKERS, MAKE BIG BUCKS ? ? .
@Arthur Williams honestly it really depends. I feel those positions should make good money but a lot of companies take advantage
Same here. It’s hard work I’ve been at the place I’m at for two years and it’s a lot of work. We do both aerospace and semi wheels.
To the guys running the gravity hammer in the second clip; “Hearing protection, man!”
Response; “Huh, what?”
Respect your safety concern for those poor workers. Their boss doesn’t care about them while counting profits and living in luxurious life
Yeah I was wondering if they added that section to show the difference of the hand forging versus their big machines, when I heard the voices I realize they had sped up the video as was my suspicion.
@@KA-pq3yz how would you know that? think of where this is and the fact every profession has got rules and regulation they got to follow and it seems to me most people who are in charge and got there by hard work like the ones they are are in charge over really do care for people now that's not the same for every situation but y'all always love to assume every rich guy or guy in power is only doing it for money and does not care about anything else a pretty naive way of think if you ask me perhaps even ignorant. You may be right but who knows respect all
@@gabrielrekt905 None of the employees wearing basis safety and protection gears in that video. Isn’t it so? That’s the telling point
@@KA-pq3yz My point still stands not every company nor country has the same safety precautions. Also these are professionals Im almost certain but hey you are free to judge as I am
Me: I better get some sleep for work tomorrow
TH-cam: Want to see a a giant hammer smashing things.
how did you know i was here?
Just letting you know. That this is still happening. 2 in the morning, i'm watching a hammer hit some molten steel. TH-cam is a sleep thief.
Unbelievable how clean that factory is.
Due to regulation
Imagine if hydraulic press channel had that huge hydraulic press 😱😱
The hydraulic machines in the first segment are pretty impressive.
The guys doing the hammering in the second segment look like they have a hard job. Loud, hot and physically demanding.
MAKE THE MUSIC LOUDER I STILL CAN'T HEAR IT
I love how you can watch the already high temperatures in the steel soar even higher as the steel is compressed into shape.
0:10 изготовление кольца на раскаточном многовалковом станке
2:45 китайцы куют на улице в рукопашную
5:47 изготовление железнодорожного колеса
7:25 рекламное видео завода
9:13 изготовление вала
11:21 какая-то левая труба
11:45 изготовление детали (кочерга)
0:10 making a ring on a multi-roll mill
2:45 the Chinese forge melee on the street
5:47 making a railway wheel
7:25 advertising video of the factory
9:13 making a shaft
11:21 pipe
11:45 making a part
@@maxime121 "...on the street" - лучше "outdoor" :)) Они же не среди трамваев и пешеходов кузню построили.
👍
Хотел спросить, а куда девают окалину? Столько метала уходит
I wanted to ask, where does the scale go? How much metal goes
@@maxime121 hahaha google translate makes the Chinese forge part unexpectedly funny🤣🤣 “Chinese forge on the street in hand-to-hand combat” that’s good stuff
The fear I’m feeling just watching the big hammer pound the steel. Just imagine getting pushed under one of those as it’s coming down 😳😳
You wouldn't feel much after touching the steel at least...
You don't have to be Chinese to work here but it helps, what?
@@johnhulsker9123 godzilla had a stroke reading this and died
Why would you think such arbitrary sick things?
@@ramonbril because I have intrusive thoughts lol
I like the guys forging with the big drop hammer. Such coordination. Awesome!
This is probably the most badass video I've seen all year
These guys need eye protection when smashing that hot steel.
That is the first thing I noticed.
amazing how long the steel remains red hot. It’s bashed into shape and then moved to another machine to be shaped some more. Pesumably the large size retains the heat.
And how much energy they use to heat it up like that is insane I think
@@daan-6734 I don't think you are getting that heat out of a few solar panels on the roof haha.
I think also heat generated from deforming the metal with such force helps it to stay hot.
“Surface area to volume ratio” is the phenomenon at play here. As objects get bigger, their volume grows faster than their surface area. This is why a large chuck of stew can stay so hot for so long, there’s just a lot of hot steel and not much surface area for the heat to escape.
This is also why the most efficient engines in the world are also the largest. As a cylinder gets bigger, you get a lot more volume (power) but not a lot more surface area (lost efficiency by losing heat to the water jacket)
Conversely, this is what explains the shape of heat sinks. All those fins create a huge surface area for a tiny amount of volume. So they are optimized to shed heat as fast as possible.
The opposite of a heat sink would be a sphere.
This is absolutely blowing the mind of ancient alien believers who think that we can't cut/move a few big stones with modern tech.
You have to be there to understand the immense heat coming off that steel. I’ve had the opportunity to tour facilities in the UK as well as several plants here in the USA
considering its a giant glowing piece of metal, yea.
Even a 20mm by 20mm billet of steel heated to 1000°C (forging temperature) can be really painful to be around.
How did you get the opportunity to see these up close? Inspection or something else?
2:36 Sauron making his ring in Mount Doom
These are real jobs!! This is real engineering!! This is actually invention and innovation!! This is cutting edge stuff..
Your comment would have made sense at the time of the industrial revolution, about 250 years ago. Now it is anything but invention and innovation.
There’s something so satisfying about the boom and shake that that big hammer makes.
Better than watching tiktok
TOTAL RESPECT for all the workers
Hardcore heavy metalwork
Now this is smart. Produce a great show that appeals to the inner male kid in me.
I'm hooked.
Right. This is fucking awesome.
Why is watching this so relaxing
Because you’ve had a bottle of gin?
Why does nobody use question marks anymore?*
@@einundsiebenziger5488 was kind of rhetorical most men (who was raised right)find it relaxing
The people that design these machines to work amaze me
Hard to believe someone thinks a set of solar panels can do these processes. The amount of energy used in these videos is incredible.
We use to have a aluminum mill in our area that their electric bill alone was in excess of a million dollars monthly. Not factoring in natural gas use. Always found this stuff very interesting.
@@rodgerwoods4971 and people believe the windmills have the horsepower (or wattage) to heat or melt parts that big. The electrodes "wires" are anywhere from 6 to 14 inches in diameter just to conduct the necessary juice, and thats just one...
@@jeffwombold9167 Yes sir. And to deliver the amperage needed is massive. And as you stated, windmills, solar panels, etc isn't going to cut it. And the mill hammers are awesome. Not sure of the pressure used, but it makes easy work of it.
Seems like light duty safe work to me......... hats off to all the hard workers.
They have to keep their hard hats on.
My son worked for a forging co. as a hammer man. Hot, tough work.
The modern, fully automated facilities are fascinating!
When the metal flakes away to reveal the lava candy underneath 😋👌
MAN!!! This Is Some Relaxing Ambience.
Wished this was a documentary as opposed to a clip grab
Baby TeSla kingDom Hello 😍🙏😍
មនុស្សខួរក្បាលឆ្លាតវៃ
💚💚💚💚💚💚💚💚💚💚💚💚💚
Wow, pretty impressive stuff!
The force of that hammer in the 3:00s is amazing
Imagine a railway wheel may never ever be touched by a human.
Lwl
u ok man?
Imagine trying to inspect machinery AND replace parts while the machinery is continuing to run.
The man in the second movie, when they come home. The wife: “honey how was your day?” “What…?” “How was your day?” Yeah I know, rain is coming!”
Fascinating. Whoever came up with these techniques are brilliant
Why is the most badass clip the one with the worst editing?
I'm a 567lbs mentally ill Californian. I watch videos at 3am then complain I cannot work.
😂 SAVAGE!! 😂
@@7Sin0City2 My pronouns are It / Thing or Blob.
When I go out for drink I want to get hammered.
The hammer: 3:00
Recently there was a story about a steel worker who tripped and fell into a vat of molten steel. The accident took place at a Caterpillar factory in Illinois. The only saving grace, if there is one, is that the man didn't suffer as he was instantly incinerated.
This is very entertaining 👍
🔥🔥🔥🔥🔥🔥🔥🔥🔥🔥🔥🔥🔥🔥🔥
I'm impressed with these guys that drive these specialized machines that manipulate the huge hot metal. They become one with the machine. It's merely an extension of their own arm.
I've always imagined the size of the machine that these machines are making parts for. Probably not a door knob.
A giant's door, maybe? I've always thought Zeus is still around somewhere :)
Suddenly, I feel that the development of the machine is really able to ensure safety.
?
@@francescopaolociminale5258 Hot forging is sometimes dangerouse, and the large forging in the video is a high-risk industry. But the development of automated machinery can keep workers away from danger.
Orcs are real.
Last month, a 125000-ton hydraulic press started construction in my city, and I am very excited and looking forward to its completion
All hail the forbidden wheel of cheese
Also known as the forbidden hell donut
Thank fuck I’m not the only one who wanted to eat it
SME sir suggested video 😁
It would be nice if you explained what we are seeing being made.
Steel
@@jonathonvince561 Well, no, the steel has been made. This is about forging it into a product. Forging strengthens steel, eliminates voids and increases the homogeneity of the product, but regardless, this video isn’t about “making” steel.
African industry at it's finest. Where would the world be without African technology and innovation?
I have some questions for an expert: What are these crusts that fall off from the hot iron piece when they are put under pressure? Since these crusts are clearly a loss of the production, do they fall into account during the process? And would these fall off endlessly if the pressing process would go on for too long?
That's what blacksmiths call "scale". Basically, it's rust. The loss of material is very, very minimal.
The high temperature causes oxygen in the air to join with the steel surface much faster than it would rust the steel at normal temperature. So as the steel cools, the scale forms more slowly. Yes, the loss of scale is small but an expected part of the process. Remember that most forms of iron oxide are many times less dense (take up more space per gram) than iron itself. Usually at least one surface is machined to an exact dimension after forging, sometimes the entire surface of the part is machined, mostly depending on which surfaces touch other parts (but also for cosmetic reasons if a customer can see the surface). So the requirement is to leave enough metal to cut the rough "as-forged" surface away, not to forge it to the exact final dimension ("net-shape").
@@elektro3000 Great explanation.
Slag
Impurities in the metal
As an engineer who built and repaired these machines. Believe me they have to treated with respect. They will kill in a blink of the eye.
Anyone here actually work at a forge and wanted to see different ways it can be done. Or is it just me
I do _not_ work at a forge but I _was_ wondering; what is the deal with the stuff that falls off the side of the nugget when it's being squashed? 1:02 🤔
@@wavydavy9816 I think it’s like how sometimes on rail pieces of it will chip of and heating it up accelerates the process
i dont work at a forge but i love seeing heavy machinery at working with humans
I do work at a forge, but I just saw hot metal on the picture and clicked.
This is impressive that they have places that do this I was a iron worker and moved huge hamers
Imagine your body/organism/ health at night having all the resonance produced in you!!
Excellent----perceptive
1:37 That forklift driver is pretty good at his job. 😲
I cant imagine the amount of water vapor this thing will make if you dump one in the ocean
Not much.. It will sink deep and all the vapor will condense on the way to the surface. You MAYBE find some unusual warm water on the surface, but that's it.
@@jackmclane1826 If you dropped on the size of a house maybe you’d get a reaction chain of fire and flames in the water. But besides that it would all disappear in less than a minute or so.
First the ocean is pretty cool or cold in some areas. Second this is steel and no matter how big the object it still will cool down rather quickly. Poor fishes though
@@spartanalphamode2987 I'd disagree to the cooldown speed. The Leidenfrost effect will cover it in a layer of steam and insulate it for quite a long while. Certainly in the range of several minutes.
Of course it depends on how deep the water is, because of the pressure that would hold down the steam.
Интересно? где это чудо Завод Находится? мне понравилось, чудо инженерный мысли 💥👍
I stand in both awe and horror. I'm awed by the creativity, intelligence, labour, and skill that went into doing what I saw in this video. Yet I cower in horror when I think of the likely consequences those traits will have on human life and life in general.
Love your comment. They are traits that can accomplish so much but that also have the potential to destroy much more.
God why can't every man or women be blessed to be this intelligent at know-how and getting the math-equations correct probably the 1st time at just exactly the size and shape of molten steel needed to end up with that finished product.... what a great video...
"What is man that thou art mindful of him, or the son of man that thou visits him? Behold he is a little lower than the angels. Thou hast crowned him with honor and glory."
It’s crazy how they keep that steel from getting brittle
It’s absolutely amazing what man can make, just astonishing.
People*
@@BenjaminGoose no, man
@@Mystic73424 but women can also make wheels…
It's amazing how bright hot the metal becomes.
Dunkin secretly owns these factories to make metal donuts...
Doo....For Robot Homer I think!!
Shh don’t give spoil the formula
😢😮😅 now they're at the part of the video where it's robotic arms and they're making train wheels it looks like. Thank you.
Dangerous giant hammer forge...then... Elevator music! Bahahaha
I was expecting 50 dwarves with hammers
And man created all of this out of earth's natural resources.. Incredible.
Pretty impressive how far we've come.
Somehow we built all of this out of sticks and stones... humans are amazing.
What do they use the powder for, when they drive a pin trough the steel circle?
I’m pretty sure it’s used to prevent the steel from sticking to the pin
Mostly graphite.
TH-cam recommended this after 11 months... I don't know.. Why 😑
love the color :D
درجة حرارة كوكب الارض تزداد كل سنة بسبب عدم احترام تنفس بيءة😊
Song used at 05:48?
That giant lathe was nuts
Wow its realy so amazing
Thank you
@@LAMachines friend, how to contact u
th-cam.com/video/37O7sgwLQT4/w-d-xo.html
You’re never gonna get John Connor, Skynet! Go back in time!
I wonder how many solar panels and windmills it will need to power this lot?
Depends on the wattage needed. The trick with Green Energy is to use it to pump water up hill into a lake and let it out over hydro. $0.03-$0.05 kilowatt.
What about geothermal? Use the planets’ heat. Tap a volcano.
@@radwizard Fair point - I was involved in pumped hydro storage many years ago. Do-able for domestic, if you have suitable terrain but crikey, for large industrial? - they need to operate 24/7 so that would need a serious solar/wind set-up...
@@bryanreidsands6854 Indeed, I think they make use of geothermal sources in Iceland - but I doubt they'd license a major industrial plant. Incidentally, some recent engineering news states that China is about to commission its first thorium molten salt reactor. Now that really is a game changer. Just a pity the west has sat on that technology for over 50years!!! (I doubt it will get a mention on the MSM)
Hard to imagine all the computer programming that goes into that stuff
great work...
... صار "الحديد" و ما أدراك ما الحديد داخل هذه الأتون "الأفران" و أمام هذه الآلات الجبارة و كأنه عجين رخو يشكلون منه ما يريدون من وسائل و أدوات مختلفة متنوعة.. يد عاملة قليلة.. آلات ميكانيكية عملاقة تتولى أصعب المهمات... و (متفرِّجٌ"منبهرٌ مندهش مشدوهٌ لعظمة ما يشاهد و يُعاين و لا يسعه إلا أن يقول (تبارك الله ربُّ العالمين... مهندسون و عمال أكفاء أشدَّاءُ متعلِّمون... بارك الله في عقولهم و صحاتهم و داموا لخدمة الإنسانية جمعاء... /آمنْتُ بالعلم الذي///لولاه لم تكُ للقرود معارجُ أو مَخْبَرُ...... "محمد الحلوي" 👍👍👍👍👍👍👍👍👍👍👍
Chicken or the egg? What forged the giant hammers and rollers used to forge the giant metal pieces we're seeing?
A lineage of smaller machines going all the way back to the first human who figured out that you if you placed this shiny rock in a fire, it would melt out a substance that was harder than the rock that it came out of and could be shaped into useful things.
The evolution of tooling is fascinating. For instance, how did they make the first large hammers or lathes to make the first large bearings and wheel sprockets, or anything else? It's kind of a chicken and egg situation.
It's not, with bad tools you can make better ones. A hammer can be forged with stones. It won't be a good hammer, but it'll allow you to make a better one.
Casting. Then improving to forging. My quess.
Omg homophobic computer at 2:13
Cancelled PC
Have you ever wonder where people got the tools to make these machine like tools?
Amazing
I thought it would be appropriate to bring this up:
I think there's this one method they use to recycle metal, they heat up a pile of scrap metal and then a large press batters the scrap metal, deforming it into a typically large cube.
Its kind of similar to what you see in the video.
Ah yes my coc andd bal masheen
I find it so satisfying watching steel being worked and it really hasn’t changed much if you think about it. Get steel really hot and hit with a hammer…Just a much larger hammer these days lol.
These machines are the reason why I go to Engineering college
Same..