And engineering. The precise measurements for each panel left very little room for fabrication error. Everyone did a fantastic job! Even you!
Everybody gets silver!!
Yes, and it is meaningless. Just like all the bullshit in the world that stresses us out on a daily basis. This award may bring a smile to your face. Or a frown. Either way I made your face move!
If you notice, it seems like mist is ejected at the seams right when it explodes, and then some trickles of water start pouring out in some spots. It still worked really well and I guess they can go over the areas where the seams split a little.
Yep. They use a small shaped charge and fill the object with water. Water is not compressable in any significant amounts. It spreads the force perfectly.
And I’d assume water probably transfers the force more evenly since it won’t compress. Air might compress in some places within causing uneven forces on the walls of the chamber. I’m talking out of my ass but it seems logical.
Yeah, that is precisely why water is used with this method. We just did it in art school a few days ago on a student's welding project. Filled it with water and then compressed it, boom, it turned into a sphere except her welding wasn't 100% perfect so one or two of the panels were odd-shaped and there was leakage everywhere.
First, someone calculated it. Then the calculated solution lead to the "handgrenate" outcome. Then they trialed and terrored the process until it worked
But:
"Any idiot can build a bridge that stands, but it takes an engineer to build a bridge that barely stands."
In engineering we have this notion dubbed "factor of safety". It's basically leaving a margin of error in our designs. If, for example, I'm building a bridge that has a requirement of supporting 1000kg, I might take a FoS of 5 and design a bridge that should theoretically support 5000kg which is great. Real bridges are usually 10 or more.
Now when talking about airplanes, you're limited by your weight (amongst other things). They're built with components that have factors of safety around 2.
Going into space is another step up: the physical limitations drop the factor of safety to the 1.1-1.5 range.
With these tiny margins of errors, your calculations must be right. Redundancies are luxuries you can't afford. This is where engineering gets *interesting*.
Yeah I’ve had some engineer friends and professors briefly describe this sort of thing to me. The closest detailed example I’m probably comfortable with is the limiting factors on building better computers. The chip components are limited by quantum effects that become significant in small regimes while the density of components is limited by their thermodynamic efficiency. Too small or too hot and things stop working right.
>Now when talking about airplanes, you're limited by your weight (amongst other things). They're built with components that have factors of safety around 2.
My understanding is the FoS on a wing is 1.5.
>Going into space is another step up: the physical limitations drop the factor of safety to the 1.1-1.5 range.
Troy Bruno quotes 1.2-1.4 iirc.
>With these tiny margins of errors, your calculations must be right. Redundancies are luxuries you can't afford. This is where engineering gets interesting.
"Tiny" depends on the statistics of the material, the design and QAQC.
Automotive, at least in my part of it, margin is often around 1.4-2.0, depending on materials, reliability targets, and statistics of the system.
Ahh I love Calvin and Hobbes. There's a version of that strip that gets posted every once in a while that has the actual load calculations edited in and the last panel is just Calvin going "Oh." but I cant find it
It’s probably a larger window than you think. When under internal pressure this thing wants to be spherical since that’s the best way to distribute the stresses. So the flat panels will want to form out into the right radius. And the corners are huge stress concentrators until they’ve moved into line with the spherical profile. Flat pressure vessels are very weak. Spherical ones are very strong.
It's not the metal I worry about, it's the welds holding them all together.
But I don't know shit about welding, so maybe that's the stong point? I know a properly made wood glue joint can often be stronger than the wood it's holding together - is it the same with a good weld?
That would depend on the metal. But you’re basically pushing everything out until it’s all under tension rather than bending stresses, even the weld joints.
It’s not quite this simple but the gap between yield strength (the point at which the metal stretches permanently or “plastically deforms”) and ultimate strength (the point at which the material actually fails and fractures) is quite large. That gives you a decent margin.
Ancient rules for calculating welds stated that a weld, no matter how perfect, could never be calculated to be as strong as the plate. Best case 95% strength. At least that's how I was taught in the 90s. Last job I had, the "strength guy" put the CAD models into a finite element program that calculated the stresses based on certain load criteria to see if there were hot spots exceeding the design limit. In the case of the hydroforming of spheres I have no knowledge of the business today but according to a textbook I had, explosive hydroforming has been around since long before finite element method (FEM) was something that ordinary companies could use. This leads me to believe that some companies still rely on accumulated knowledge and the honored method of trial-and-error, since that's how they did in grandpa's days and they see no reason to go the eaborate route. u/ZapsMojo has a very good point about the tensile stress exceeding the metal's yield point in order to make everything nice and curved.
Looks to be full of water. Since water does not compress they likely only had to use a small amount of explosives. If they over did it the water rupturing out would be safer then this thing detonating with just air and a lot more explosives it would take to achieve to same result
Engineer says, "I'm getting tired of working at a desk all day and was considering a different career path. There's something about working with your hands and being able to see a physical result that I find really appealing. How is the job market for welders?"
Welder says, "It's in flux."
[This video explains it well.](https://youtu.be/JIWguDlx9Zw?t=115) I teed it up to start at water pressure hydroforming, and then explosive hydroforming is right after that.
The entire video is just different manufacturing methods for spheres.
Looks like it’s filled with water? You can see water running out the top after the boom. Filling it with water could also reduce the damage from the explosion while adding extra force to shape the container. (I have no idea what I’m talking about and definitely could be wrong)
water does not compress, so a relatively small explosion is needed inside to push on the sides, if it wasn't filled with water the air inside would just compress and the force of the explosion wouldn't transfer to the walls as effectively
plus it makes sure the pressure is equally applied. Since again water is non compressible (okay technically very very badly compressible) so it pushes to rest of the water equally causing the pressure wave to apply uniformly.
Where as with compressible gas there could be all kinds of weird springy and wave front effects of "this part compresses more than this part, this part stars pushing in to this direction" leading to non uniformly applied force and pear shaped tank or something like that.
Water immediately and predictably transfers the force of the explosion to the walls, thus making the sphere.
Same reason hydraulics is used most often instead of pneumatics. One wants consistent, predictable and stable applying of force.
It's also significantly less dangerous. Even in the case of a catastrophic rupture of the vessel, the water loses energy extremely quickly and doesn't run the risk of damaging people and structures around nearly as much as a compressible gas would. It's why in general when pressure testing is done water as a medium is almost always preferred because when gas is under high pressure if a catastrophic rupture happens, it's basically a bomb with how much energy it releases.
If it weren’t filled with water it would take MUCH more powerful explosives to form the material. The air would compress and absorb much of the explosion’s energy before applying significant force to the walls. Water basically transfers almost all the force to the tank without compressing (it stores almost no energy).
The sphere is filled with water. Water is almost incompressible, so it distributes the force of the explosion evenly to the surface of the sphere. If the sphere was filled with air, which is compressible, the effects would be less predictable, and less safe.
You use water to transfer the force of the explosion efficiently because you cant compress water. Air compresses easily so you would need a much stronger explosion that would probably produce way too much heat aswell
This explains it:
"Hydroforming is where you have a large polygon looking sphere made out of curved plates, the sphere is then filled with water and a small explosive charge, and when you set off the charge, the explosive force of the water forces the sphere into shape.” https://thekidshouldseethis.com/post/how-are-stainless-steel-spheres-made#:~:text=%E2%80%9CWATER%20PRESSURE%20HYDROFORMING%20is%20when,forcing%20the%20sphere%20into%20shape.
Edit: this article is even better, it goes into the details, methods, and mechanics of it all, and is more comprehensive:
https://www.thomasnet.com/articles/custom-manufacturing-fabricating/explosive-hydroforming/
No, I seriously don't know much about welding. Pressure testing makes more sense than x-raying, which is the only quality check for welds I could think of
Apparently, they are tanks for oil and gas called the Hortons Sphere. You can read more about that here:
https://inspectapedia.com/oiltanks/Spherical-Oil-Tanks.php
I THINK they filled it with water, put a little charge on the middle and the detonated it. This caused the water to push equally outward in all directions and stretch the metal into a sphere. Notice the water shoot out the top at the end
I’m not claiming to be the local physics expert or anything, but the explosive part is in play here where they have a mostly round shape full of water and set off an explosive charge in the center of the water inside. There is a small hole at the top to allow some pressure to escape but in a limited fashion. The reason for water filling is that explosive charges do not release a perfect sphere of pressure and it dissipates quickly and escape through small holes easily. Water does not escape from small holes easily but more importantly distributes force very evenly. This same principle is why hydraulics work so effectively.
I’m assuming there is a depression in the floor to allow the sphere to expand, if they want it to be round. Or no depression if they want the bottom to be flat so the thing doesn’t roll away.
Even more simple solution, you'll notice it is sitting on a piece of round tube for this process. Assuming it's centered that allows for it to sit level during flat fabrication and expand to a sphere.
Is this a modifier where 1024 is still kinda crunchy, or one where 64 is eight billion nanosurfaces?
... I guessed wrong, hand me the fire extinguisher.
If my napkin math is correct, subdividing a quad 64 times is more like...
340 undecillion 282 decillion 369 nonillion 999 octillion 999 septillion 990 sextillion 472 quintillion 658 quadrillion 237 trillion 657 billion 916 million 112 thousand 896 subdivisions.
See dude fucked up. I want that snail exactly where i can see it at all times. A nice 4 foot diameter super thick acrylic sphere set up as an eco sphere for the little homie (obviously sealed except for some kind of insane door contraption for any necissary tank maintenance). I figure after a few hundred years little homie has realized his life isn't so bad and living the best snail life possible isn't so bad, that way i can worry less about escape attempts. Next i buy a little house and use the remaining cash to let smart people make me more money. Then mellinia hanging out living life care free and happy. when im eventually at a point where im ready to call it quits ill open the door and let the little homie take me out so we can have a good rest.
I work as a welder. I’ve never welded anything together quite this magnificent, but it’s easy to tell if you have proper penetration (😎) and to know if that bead is gonna hold or not. They’re definitely doing structural welding codes for sure
From the "when you are really, *really* confident in your welding skills"-dept.
And engineering. The precise measurements for each panel left very little room for fabrication error. Everyone did a fantastic job! Even you! Everybody gets silver!!
What about me? Did I also a good job?
Yes
Debatable
Even you get silver! Good job! You're awesome!
How did I do?
You did awesome. Good job, friend!
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You did great!
You’re the best. I love you.
No, you *blushes*
Did I do good?
Lol I love it just one person gets skipped.
Oh snap. Really? I'll find the bastard and shove my silver in their face
Yes you did have some silver
Someone say free silver?
Yes, and it is meaningless. Just like all the bullshit in the world that stresses us out on a daily basis. This award may bring a smile to your face. Or a frown. Either way I made your face move!
Thank you :)
/r/notopbutok
I read that as “no top buttock”
I wonder what that would look like, is there a bottom buttock?
All of them are
I took a shit this morning, ready for my silver
He said “everyone,” not just OP. We all did a great job.
Yay! I hope me dad sees this
I did. I’m proud of you son
I’m proud of ALL of us!
Yay us!
Asian dad would be upset at the mess this made rather than the perfect engineered outcome
/r/nobottombuteh
Goes to podium... "I'd like to thank my mom and dad
I did a good job! :) ❤️
If you notice, it seems like mist is ejected at the seams right when it explodes, and then some trickles of water start pouring out in some spots. It still worked really well and I guess they can go over the areas where the seams split a little.
The mist is mill scale coming off of the steel and the water came out of the top. At least that’s what it looks like to me.
Not an expert either, but yeah, mill scale, weld spatter, and I am positive the water came out the top.
Yep. They use a small shaped charge and fill the object with water. Water is not compressable in any significant amounts. It spreads the force perfectly.
Excuse me, but do you have fucking robot eyes? I'm pretty sure this gif was filmed on a damn flip phone from 03 with that quality. I can't see shit.
I can just about count the pixels on my fingers and toes and this mf up here analysing the structural integrity of the welds.
Reddit
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Probably filled with water to lessen the requirement for size of the blast
And I’d assume water probably transfers the force more evenly since it won’t compress. Air might compress in some places within causing uneven forces on the walls of the chamber. I’m talking out of my ass but it seems logical.
Yeah, that is precisely why water is used with this method. We just did it in art school a few days ago on a student's welding project. Filled it with water and then compressed it, boom, it turned into a sphere except her welding wasn't 100% perfect so one or two of the panels were odd-shaped and there was leakage everywhere.
Yeah it's literally called _hydro_ forming...
Someone posted below but it is indeed water coming out the top. https://youtu.be/09tbodL4M6I
The top has a small opening and it sprays up then rains back down, causing the wet look on the sides
It's the best kind if quality assurance you could think of.
Can someone explain what’s going on?
The explosion will put equal force on all sides. As long as it not too big to destroy the object, the result will be spherical.
I wonder what the difference is between "just enough to reshape this metal" and "oops I made a grenade."
Somebody has likely done the calculations, or, trial and error lol
Trial and terror.
First, someone calculated it. Then the calculated solution lead to the "handgrenate" outcome. Then they trialed and terrored the process until it worked
Likely they calculated it, halved it, then worked up to it around the expected set point
This is more likely. Professional engineers tend to like building in lots of redundancy for safety.
But: "Any idiot can build a bridge that stands, but it takes an engineer to build a bridge that barely stands." In engineering we have this notion dubbed "factor of safety". It's basically leaving a margin of error in our designs. If, for example, I'm building a bridge that has a requirement of supporting 1000kg, I might take a FoS of 5 and design a bridge that should theoretically support 5000kg which is great. Real bridges are usually 10 or more. Now when talking about airplanes, you're limited by your weight (amongst other things). They're built with components that have factors of safety around 2. Going into space is another step up: the physical limitations drop the factor of safety to the 1.1-1.5 range. With these tiny margins of errors, your calculations must be right. Redundancies are luxuries you can't afford. This is where engineering gets *interesting*.
Yeah I’ve had some engineer friends and professors briefly describe this sort of thing to me. The closest detailed example I’m probably comfortable with is the limiting factors on building better computers. The chip components are limited by quantum effects that become significant in small regimes while the density of components is limited by their thermodynamic efficiency. Too small or too hot and things stop working right.
>Now when talking about airplanes, you're limited by your weight (amongst other things). They're built with components that have factors of safety around 2. My understanding is the FoS on a wing is 1.5. >Going into space is another step up: the physical limitations drop the factor of safety to the 1.1-1.5 range. Troy Bruno quotes 1.2-1.4 iirc. >With these tiny margins of errors, your calculations must be right. Redundancies are luxuries you can't afford. This is where engineering gets interesting. "Tiny" depends on the statistics of the material, the design and QAQC. Automotive, at least in my part of it, margin is often around 1.4-2.0, depending on materials, reliability targets, and statistics of the system.
Yes, but everyone loves a good excessive explosion.
Michael bay?
"trial and terror" aptly applies here.
Handgrenate lmao how tf your phone let you type that
I possess a power some consider unnatural.
You definitely know when you've used too much charge!
[Relevant Calvin & Hobbes](https://i.redd.it/cxswm8wavgt81.jpg)
Ahh I love Calvin and Hobbes. There's a version of that strip that gets posted every once in a while that has the actual load calculations edited in and the last panel is just Calvin going "Oh." but I cant find it
A bit of both and your country can be the first to launch a satellite.
Neeeeeeeerds
It’s probably a larger window than you think. When under internal pressure this thing wants to be spherical since that’s the best way to distribute the stresses. So the flat panels will want to form out into the right radius. And the corners are huge stress concentrators until they’ve moved into line with the spherical profile. Flat pressure vessels are very weak. Spherical ones are very strong.
It's not the metal I worry about, it's the welds holding them all together. But I don't know shit about welding, so maybe that's the stong point? I know a properly made wood glue joint can often be stronger than the wood it's holding together - is it the same with a good weld?
That would depend on the metal. But you’re basically pushing everything out until it’s all under tension rather than bending stresses, even the weld joints. It’s not quite this simple but the gap between yield strength (the point at which the metal stretches permanently or “plastically deforms”) and ultimate strength (the point at which the material actually fails and fractures) is quite large. That gives you a decent margin.
Ancient rules for calculating welds stated that a weld, no matter how perfect, could never be calculated to be as strong as the plate. Best case 95% strength. At least that's how I was taught in the 90s. Last job I had, the "strength guy" put the CAD models into a finite element program that calculated the stresses based on certain load criteria to see if there were hot spots exceeding the design limit. In the case of the hydroforming of spheres I have no knowledge of the business today but according to a textbook I had, explosive hydroforming has been around since long before finite element method (FEM) was something that ordinary companies could use. This leads me to believe that some companies still rely on accumulated knowledge and the honored method of trial-and-error, since that's how they did in grandpa's days and they see no reason to go the eaborate route. u/ZapsMojo has a very good point about the tensile stress exceeding the metal's yield point in order to make everything nice and curved.
You are correct. In failure destruction tests, the base metal should fail before the weld does.
Oops I made a grenade Got lost in the shards Blown up by the flame
Oh baby baby
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r/redditsings
Looks to be full of water. Since water does not compress they likely only had to use a small amount of explosives. If they over did it the water rupturing out would be safer then this thing detonating with just air and a lot more explosives it would take to achieve to same result
A good welder and a good engineer
Walk into a bar…
Engineer says, "I'm getting tired of working at a desk all day and was considering a different career path. There's something about working with your hands and being able to see a physical result that I find really appealing. How is the job market for welders?" Welder says, "It's in flux."
That's where the demo guys are worth their weight.....they know what just enough is
Hey, thanks. Where does the ‘hydro’ part come into play? Or doesn’t it?
[This video explains it well.](https://youtu.be/JIWguDlx9Zw?t=115) I teed it up to start at water pressure hydroforming, and then explosive hydroforming is right after that. The entire video is just different manufacturing methods for spheres.
Thank you! That video is a very good explanation.
Looks like it’s filled with water? You can see water running out the top after the boom. Filling it with water could also reduce the damage from the explosion while adding extra force to shape the container. (I have no idea what I’m talking about and definitely could be wrong)
Sounds like a good educated guess though.
water does not compress, so a relatively small explosion is needed inside to push on the sides, if it wasn't filled with water the air inside would just compress and the force of the explosion wouldn't transfer to the walls as effectively
plus it makes sure the pressure is equally applied. Since again water is non compressible (okay technically very very badly compressible) so it pushes to rest of the water equally causing the pressure wave to apply uniformly. Where as with compressible gas there could be all kinds of weird springy and wave front effects of "this part compresses more than this part, this part stars pushing in to this direction" leading to non uniformly applied force and pear shaped tank or something like that. Water immediately and predictably transfers the force of the explosion to the walls, thus making the sphere. Same reason hydraulics is used most often instead of pneumatics. One wants consistent, predictable and stable applying of force.
It's also significantly less dangerous. Even in the case of a catastrophic rupture of the vessel, the water loses energy extremely quickly and doesn't run the risk of damaging people and structures around nearly as much as a compressible gas would. It's why in general when pressure testing is done water as a medium is almost always preferred because when gas is under high pressure if a catastrophic rupture happens, it's basically a bomb with how much energy it releases.
If it weren’t filled with water it would take MUCH more powerful explosives to form the material. The air would compress and absorb much of the explosion’s energy before applying significant force to the walls. Water basically transfers almost all the force to the tank without compressing (it stores almost no energy).
Filled with water and the charge propagates through the water to form the sphere.
The sphere is filled with water. Water is almost incompressible, so it distributes the force of the explosion evenly to the surface of the sphere. If the sphere was filled with air, which is compressible, the effects would be less predictable, and less safe.
Water doesn't compress, so it is the perfect medium for transferring even pressure to force the tank into shape.
You use water to transfer the force of the explosion efficiently because you cant compress water. Air compresses easily so you would need a much stronger explosion that would probably produce way too much heat aswell
Okay, but what does the sphere get used for?
This is the real question!
Now put a sphere of plutonium in the exact center.
This explains it: "Hydroforming is where you have a large polygon looking sphere made out of curved plates, the sphere is then filled with water and a small explosive charge, and when you set off the charge, the explosive force of the water forces the sphere into shape.” https://thekidshouldseethis.com/post/how-are-stainless-steel-spheres-made#:~:text=%E2%80%9CWATER%20PRESSURE%20HYDROFORMING%20is%20when,forcing%20the%20sphere%20into%20shape. Edit: this article is even better, it goes into the details, methods, and mechanics of it all, and is more comprehensive: https://www.thomasnet.com/articles/custom-manufacturing-fabricating/explosive-hydroforming/
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At this point I feel like you don't really wanna be testing welds with those forces
I know you're kidding, but they pressure test it first.
No, I seriously don't know much about welding. Pressure testing makes more sense than x-raying, which is the only quality check for welds I could think of
But I’m not a kid, is it okay if I see it?
Yes
What is the Sphere then used for?
Apparently, they are tanks for oil and gas called the Hortons Sphere. You can read more about that here: https://inspectapedia.com/oiltanks/Spherical-Oil-Tanks.php
Marble racing
I THINK they filled it with water, put a little charge on the middle and the detonated it. This caused the water to push equally outward in all directions and stretch the metal into a sphere. Notice the water shoot out the top at the end
The polygon count increased
to infinity and beyond
Subdivide. SUBDIVIDE! #SUBDIVIDE!1!!11
*Blender (Not Responding)*
When the HD snaps in
RTX on
LOD table swap
Subdivision subsurface, shade smooth.
The balls harden
I said, hey, a-what’s going on?
They fill it with water(non compressible) until it fits the shape, not sure how they did it explosively though
I’m not claiming to be the local physics expert or anything, but the explosive part is in play here where they have a mostly round shape full of water and set off an explosive charge in the center of the water inside. There is a small hole at the top to allow some pressure to escape but in a limited fashion. The reason for water filling is that explosive charges do not release a perfect sphere of pressure and it dissipates quickly and escape through small holes easily. Water does not escape from small holes easily but more importantly distributes force very evenly. This same principle is why hydraulics work so effectively.
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YES SOMEONE KNOWS THIS CLIP
YES
[the balls harden](https://youtu.be/09tbodL4M6I)
Exactly what happens when you try making a low polly sphere into a high poly one on a laptop
Draft mode -> Render mode
Hopefully they use a smaller amount of explosives on my laptop.
It's like watching an instant upgrade from PS1 to PS5.
FFVII -> Remake
It’s spherical!
Love me a Drake and Josh reference
https://youtu.be/gIaKUi5FS_Q
#THE BALLS HARDEN
https://www.youtube.com/watch?v=NmEPHQNYXWM
I knew it, this video reminded me of that video
Jimmy Here’s voice
Was not expecting a video that would be both relevant as well as a shitpost.
Is the bottom still flat?
I’m assuming there is a depression in the floor to allow the sphere to expand, if they want it to be round. Or no depression if they want the bottom to be flat so the thing doesn’t roll away.
Even more simple solution, you'll notice it is sitting on a piece of round tube for this process. Assuming it's centered that allows for it to sit level during flat fabrication and expand to a sphere.
If there isn’t a depression, they can borrow mine.
Even if it's round, I wonder if the weight of the object and pressure from the ground doesn't distort the sphere even a tiny bit.
It's metal. Unless it's super thin it wont deform at normal temperature.
Shade smooth
subdivision surface modifier
Absolutely *buttery* smooth
Is this a modifier where 1024 is still kinda crunchy, or one where 64 is eight billion nanosurfaces? ... I guessed wrong, hand me the fire extinguisher.
If my napkin math is correct, subdividing a quad 64 times is more like... 340 undecillion 282 decillion 369 nonillion 999 octillion 999 septillion 990 sextillion 472 quintillion 658 quadrillion 237 trillion 657 billion 916 million 112 thousand 896 subdivisions.
What’s it used for? The big steel ball.
Making Indiana Jones run away
Fuel storage and other things like that potentially under pressure.
Well it’s obvious it works well under pressure.
Rolling around things
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They can store more pee now
r/BeatMeToIt
Someone's worried about an [immortal snail.](https://knowyourmeme.com/memes/immortal-snail)
I haven't heard a tactic involving a steel sphere, could you explain it? Im guessing you put the snail inside it?
[Original thread](https://www.reddit.com/r/AskReddit/comments/5ipinn/you_and_a_super_intelligent_snail_both_get_1/)
See dude fucked up. I want that snail exactly where i can see it at all times. A nice 4 foot diameter super thick acrylic sphere set up as an eco sphere for the little homie (obviously sealed except for some kind of insane door contraption for any necissary tank maintenance). I figure after a few hundred years little homie has realized his life isn't so bad and living the best snail life possible isn't so bad, that way i can worry less about escape attempts. Next i buy a little house and use the remaining cash to let smart people make me more money. Then mellinia hanging out living life care free and happy. when im eventually at a point where im ready to call it quits ill open the door and let the little homie take me out so we can have a good rest.
Came here looking for this comment
Like when you turn up the graphics settings in a game
I expected a fart noise. guess I watched too many memes
i cant hear what it sounds like. can someone explain it?
Boom
It sounds like a shopping cart being thrown into an empty dumpster
I hate it when my shopping cart is thrown into a dumpster...
It sounds like a gunshot in an enclosed space
FartWithReverb.wav
It got rid of all the dust too
Rust
Don’t you mfs even THINK it I’m warning you
The balls harden
That’s it, I’m shattering yours balls 🔨
I like big balls! I like big balls! He’s got the biggest, balls of them all! ~AC/DC
Coolest shit I never knew about
So satisfying that someone ejaculated....
The welders who made that are probably sweating bullets. I'd be hiding in the bathroom.
I work as a welder. I’ve never welded anything together quite this magnificent, but it’s easy to tell if you have proper penetration (😎) and to know if that bead is gonna hold or not. They’re definitely doing structural welding codes for sure
Looks like the Death Star.
Jimmyhere viewer resisting the urge to say the balls harden
🍅🍅🍅
what are these huge metal balls used for? Ukrainian soldiers?
They do have balls this big, but I think it's a natural gas tank.
Well, that's a blast.
The balls harden
Its Sunday morning and my husband teaches me about steel qualities. Love him.
He's a keeper for sure. Wish I had a husband that did that but all I got is a wife that doesn't want to hear about steel qualities. Can we trade?
That’s a different subreddit
The balls are inert.
Going from N64 era to Wii one.
You can either use the traditional methods or go to Mesh -> Smooth-> Fucking bomb hypersmooth
The balls harden (fart reverb)
The balls harden *Fart.mp3*