Considering the depth of that crater, I suspect "copper-plated Volvo atop a chunk of Finland crashes into airborne seagull, authorities remain flattened" may be more apropos.
The air gap was WAY to big. It should only be .5 - 3 times the thickness of the copper. It got so hot and gained so much speed it melted before it contacted the steel instead of fusing to the steel. Try 1mm copper with 1 mm gap........
i was going to say this, i remember watching a documentary years ago on a company doing this professionally on big plates and it was almost nonexistant gap, they put small spacers all over to keep the gap
ANY IDEAS ON HOW TO MAKE A C4 POWERED POTATO GUN ALSO YOU GOTTA TRY TO MAKE ONE SHOOT AN ARROW LIKE JORGE SPRAVES ARROW GUNS??? Put a potato through steel, even if its super thin. Can someone calculate how much steel you can shoot fruits and veg through, and thenwe can work out how to make them go that fast and how big the thing has to be? what about a ton of small booms in separate tanks plumbed together? if you get 4mm outer diameter metal pipe also get some 4mm inner dimension pipe and put it on the outside and repeat, maybe filling the space with whatever the people here recommend! Also is putting pvc on the inside as a sacrificial pipe to reduce friction and the load on the steel pipe a good idea or just a waste of money? maybe use metal fins to shape the wave in the tank? Please tell me experts! I was thinking an old propane tank with a port and barrel added with the marble of C4 hung floating in the center of the tank? There are likely better shapes and ways to taper the cylinder down to the barrel size but the concave ends are not bad. an alternative idea is get the biggest steel pipe you can and wrap it in rubber then pour cement around it and box that up. What say you thinkers with brains that know this stuff? is 2/3rds down the tank length better? I have a comment with more of this. Also looking for cartoon shticks they can do with sticks of dynamite like dynamite in gun barrel makes it peel open like a banana? test then try to recreate the cartoon result.
Absolutely fabulous! Would love to see more explosive welding. Would also love to see more shaped charges using semtex...different liner materials, different geometries, different targets.
@@PeterOekvist that's what I'm saying though, probably so thin you couldn't see it well. But I don't know. I think he said it was thicker in some parts.
Definitely try again, this was really interesting (especially the discussion afterwards with the zoomed in pictures). I think it would be even more interesting to take away more of the material and provide us with shots of the cross section where copper and steel meet and whether you got that to be fairly straight.
My thinking exactly! Whole generations of potters in Japan were trying to achieve THIS look for the perfect matcha bowl... there is also a dimension of "kintsugi" as the erosion from the liquified copper is resembling the gold of the original kintsukuroi...
US layered coins, like the dime and quarter, get their metals fused by this process. Large slabs get welded, then they are rolled into thin sheets. ... There is an artist in Arizona(?) who uses Deta-sheet, flowers and sheet metal to make art. Deta-sheet is essentially det-cord in sheet form. Usually about 2-3 mm thick, PETN and a binder. The metal is decorated with flowers and leaves, a sheet of high explosive laid on top. When detonated, the bits of plant disturb the shock-wave, leaving a floral pattern blasted into the metal.
@@user255 I found a Scientific American article that possibly refers to the same artist, but in typical academic journal fashion the "sample" only has like one sentence visible. Here's the JSTOR link if anyone has the ability to track down the relevant SciAm issue: www.jstor.org/stable/24987131
@@Tobascodagama I have alumni jstor access thankfully. Here's the link to the artist mentioned there's site: evelynrosenberg.com/artist.php?p=9 Seriously stunning stuff. Pillars of Knowledge might be my favorite. Haven't seen any with plants used for the relief like originally mentioned but I suspect it's the artist they were thinking of.
Yeah, it would be awesome to see it done with a slower explosive like anfo! That C4 was probably close to how an antiarmor round would react. Melting through the steel, instead of fusing to it.
From what I've read that's how some anti-armor rounds actually work. A small disc of copper in front of a shaped charge with a proximity detonator. The explosion of the charge essentially forms the copper into a small, super fast and super hot DART that penetrates the armor and then ricochets around shredding everything (and everyone) inside.
I'd really love to see the weld planed down, or machined down evenly - just to the point where it's level - to see what it looks like. it might just be something cool that you could keep as like an art piece or something.
Thankyou for all the trouble you went to, to make this video for us. Most interesting! Yes please can you do this for us again. Kind regards, and greetings from Africa.
I had samples of Titanium with Copper in my work, explosively clad together way back in the early 80's. They had been made by Nobel in Scotland from what I recall. It was possible to see the tiny wave formation at the interface of the two metals. The Titanium plate was about 25mm thick, the Copper about 5mm thick. I think the secret is near clinical cleanliness of the material surfaces and highly controlled explosion to ensure a single moving wave front between the surfaces. Well done, perhaps another attempt in much cleaner conditions and slightly thicker Copper plate .
This is such a cool video, and explains why it's so hard to clean the copper and steel off of my shooting target, keep it up obviously the hydraulic press was just the beginning!
Love the States shirt he’s wearing! Keep up the good content its some of the most interesting stuff i watch, I’m currently in school for welding tech so this was super cool.
ANFO or AN/FO for ammonium nitrate/fuel oil Also there is patent [1] from DuPont for EXW therein they talk about detonation velocity of 1200 - 5500 m/s. ANFO is said to have "measuring 3,200 m/s in 130 mm (5 in) diameter, unconfined, at ambient temperature" while here [2] it's given wirth 4200 m/s in the same table C-4 being based on RDX has 8650 m/s. [1] www.freepatentsonline.com/3137937.html [2] en.wikipedia.org/wiki/Table_of_explosive_detonation_velocities
I remember reading somewhere that the explosion front actually pushes impurities out of the metal to metal interface as it propagates. I guess slower works better for that.
I think most of the copper evaporated. Thicker copper plate and less explosives next time, and no sand around. Really hope you try this again! Also I love these explosion videos where you don't destroy something but create something new!
Metal sheets with up to five layers were made with explosive welding techniques like this for vacuum tube plates back in the day. This is one of the reasons vintage vacuum tubes perform differently from modern production units.
With seeing explosive welding carried out in the past and knowing what is involved etc, looking at your version of the process, the copper wasn’t thick enough and the explosive used wasn’t c4 or dynamite but the one typically used in mining as it’s levelled really precisely and like the world and it’s wife also said air gap too big, the other differences are that the people doing this properly have done it in a mineshaft for containment of material and the noise too.... I enjoyed the show thanks 🙏
In a different life, I worked for a company called Explosive Fabricators. It for sure works, it's a cheaper way to line large steel tanks with titanium.
Dear Beyond the Press: awesome videos! I love anything having to do with the science of energetic materials! I think you should try this one again, but using an explosive with a slower VOD. I think c4 is too fast, and it ends up splattering the copper instead of keeping it together in one piece. Try Dynamite, or even ANFO. There should be an optimal VOD that keeps the copper in one piece, yet still slams them together with enough force to weld.
They obviously were doing it for fun because this is not how you weld. And Spray Welding would be way more controlled than whatever the hell you want to call what they did.
Very cool!! I would have loved to have gotten a piece of this to cross section this in my lab and get a really good idea what the copper penetration into the steel looked like.
In college (almost 30 years ago) I had to write a paper on explosive metal working. It's cool to see it happen (no RUclips 30 years ago 🤔). Explosives were used to form Saturn rocket nosecones. Maybe you could try some underwater forming with explosives.
The explosive welding I have seen was making copper clad steel. The used a large slab of steel and placed copper sheet on top using seperator pieces to hold them apart about one centimeter. They initiated the explosion from one corner so it traveled across the piece. I'm pretty sure they didn't use C-4 as it has a burning rate much too fast.
I used to be a hard rock miner here in Ontario . Loved blasting rock into small rock using various explosives and techniques. There used to be a CIL product called Power Packs . It was a nitro based explosive that came in a plastic sleeve and weighed about 1 lb . However, I found it to be very effective on large oversize rocks if I cut open the package and shaped the explosive inside very similar to a chocolate drop and placed a blasting cap into the tip of the charge . This explosive felt very much like modelling clay .. very nice and formable . After the shot , there was nothing left of the large rock, just shattered into much smaller pieces . Sure beat hell out of carrying a jack leg over the rock pile and having to drill a shot hole into oversize . Bloody hard work that .
I've machined miles of aluminum plate explosively bonded to steel to make faying strips for welding an aluminum deckhouse to a steel deck on a ship. The paperwork that came with it described the process fully. Ir was 40 years ago but I recall it well. The steel plate to be bonded was placed flat on a 14" thick "inertia block" (can't recall the official name) made from a salvaged chunk of battle ship armor plate. There was some form of barrier between the plate to be explosively bonded and the anvil block so the two wouldn't bond. I think it was a couple layers of plain paper. Both the steel plate to be bonded and the aluminum were freshly sandblasted to white metal. They were spaced about a millimeter apart with bits of aluminum wire scattered randomly and sparsely. This spacing was critical. The closing velocity if too low wouldn't bond: if too high the softer metal would squirt out like mayonnaise. They controlled the closing velocity by controlling the spacing. The explosive (I think it was AMFO, a white powder, anyway) was spread on top with a screed to a specific thickness. The explosion was initiated by a booster strip and a cap array to start what was called a "linear wave" the full width of the plate. The steel was roughly 20mm thick and the aluminum 15mm. The bond was very difficult to machine through to make strips. We used regular lathe parting tools in a planer. The interface undulated something like ocean waves and the crests were very hard. They'd catch and break the parting blade once or twice per part no matter how careful we were. The bonded plates came in 4 ft x 12 ft (1.2 x 3.6 meters) pieces which we parted into 25mm strips the length of the plate. It was mostly an easy job until we hit the interface: that was a nightmare. Here's a link to Pacero Products, the successor to Northwest Technical Services who supplied the material to us in the late '70's: pacaero.com/products/explosive-bonded-metals/explosive-metal-welding-technical-overview/ Google has pages of offerings using "explosive welding" as a search term.
What you presented was the effects of a " shaped charge " explosion. Two explosive materials are set inside a projectile the first being like your demonstration , a contact explosion of molten copper hitting the target with then the main explosion after the target has been melted.
proffesional Finn !! love it !! ha ha ah ! As a swede from Gothenburg I love the Finnish people , suomalaiset :) (except when the beat us in icehockey)
Amazing video, you need to smoothen the upper side of the explosives more even and reduce the distance from steel to copper to abaut 1cm Can you try shaped charge versus big rock - i allways wondered why shaped charges are not used in underground mining since they are pretty precise and fast to set up
Maybe try 1/2 of the boom clay on each side or like 1/3 on copper side and 2/3 on the thicker steel side. also what about making an arrow launcher or something like that by taking a big metal tank and attaching a barrel to it and a port so you can load it with things. YOU NEED TO MAKE A C4 POWERED POTATO GUN AND TRY TO MAKE ONE SHOOT AN ARROW LIKE JORGE SPRAVES ARROW GUNS!!! Make a test rig with some old propane tanks and test the size of charge you can blow up when its hanging in the air in the middle with a 2 inch hole on the end. Make at least 3 of them and then weld the barrel to the top. Worst case scenario they are one time use potato guns, see if you can send a potato through steel even if its just a few millimeters thick so then you can put that as the title! and make 4 evolution's of the design so you can call it the V4-C4 Potato launcher and yell fore before you shoot it! Or try to recreate some Willey Coyote(or any other cartoons like Tom and Jerry or Herman and Katnip ect) and try to do whatever they tried but right or safer. like dynamite stick in a shotgun barrel, does that make a banana peel gun barrel? what does it take to make it do that to the barrel? fire a bullet with a plug welded onto the front?
The explosion has to be super exact and be in a wave type trigger so it has a uniform force from one side to the other pushing the air from between the two metals and have a much smaller gap between the two. But Holy cow that actually fused the two together. xD
You only need a flat layer (sheet) of explosives on top. No standoff needed. Explosive cladding/welding is easily achievable with smaller amounts as well. Although you dont get a huge explosion, it wont deform the material as much. Next time, place a small copper sheet on there with a coin in between and it will make an impression of the coin in the steel with stunning detail.
Its hard to believe this is common place but it is. I've wielded clad steel that was used in mining operations. Wite iron to mild steel for use in stone crushing operations. Great experiment though. I really like it. Id like it if you did some more for sure. 👍
Yes, try ANFO, with a thicker piece of copper, a smaller gap, and cleaner surfaces. Also, based on the other videos on RUclips, use little pieces of copper as spacers, so you don't have to perch the copper on the sticks.
Развлечения
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'Mysterious copper plated seagull crashes onto parked Volvo in Finland, authorities remain baffled.'
:D
Mysterious copper plated seagull crashes into parked Volvo in Sweden authorities think it came from Finland...
2.0 metre, 135kg. Finnish army clay-pigeon flinger & discus champion, awarded extended Copper Gull status for 'actions above & beyond her armpit'.
instant bronzing! want to make those baby shoes last a lifetime? just throw them up in the air right before detonation!
Considering the depth of that crater, I suspect "copper-plated Volvo atop a chunk of Finland crashes into airborne seagull, authorities remain flattened" may be more apropos.
"You start it we Finnish it." On a T-Shirt. You're welcome.
I live in a Finnish community Kaleva is its name
@@mitchzaleski8558 do you make things go Pomm?
@Evil Betty make that a finnish flag.
You ring, we bring.
That's a fantastic shirt. I'd buy that one.
“You can weld almost anything to almost anything with explosives”. So many household uses! 😆
"You know, for welding."
Know i know why the finnish guys at work are so good at welding
Household friendly too!
@@musicjunky1605 yea.. as long as you don't set the damn thing off in the household.. then you won't have a household :P
I’m going to try to weld myself onto things!
Customer: Can you exposion weld?
Lauri: Kyllä.
Later: Delivers something that looks like it has passed earths atmosphere at 30km/s.
Henke got so used to TNT, you can see how happy he is to FEEL an explosion again!
Henkka
SHAGAROO HAGAROO thank you 🙏 I couldn’t see the correct spelling 🤗
@@PPYTAO no problem
You probably meant to say dynamite, which is what they usually use. But I agree with your comment.
@@zabnat yes, TNT and dynamite are 2 different chemicals
The air gap was WAY to big. It should only be .5 - 3 times the thickness of the copper. It got so hot and gained so much speed it melted before it contacted the steel instead of fusing to the steel. Try 1mm copper with 1 mm gap........
i was going to say this, i remember watching a documentary years ago on a company doing this professionally on big plates and it was almost nonexistant gap, they put small spacers all over to keep the gap
Exactly...1-4 mm typically
...commercially it is typical to use a blast retardant to help control blast intensity as well...but nice first try☺
I love that people know this type of stuff.
ANY IDEAS ON HOW TO MAKE A C4 POWERED POTATO GUN ALSO YOU GOTTA TRY TO MAKE ONE SHOOT AN ARROW LIKE JORGE SPRAVES ARROW GUNS??? Put a potato through steel, even if its super thin. Can someone calculate how much steel you can shoot fruits and veg through, and thenwe can work out how to make them go that fast and how big the thing has to be? what about a ton of small booms in separate tanks plumbed together? if you get 4mm outer diameter metal pipe also get some 4mm inner dimension pipe and put it on the outside and repeat, maybe filling the space with whatever the people here recommend! Also is putting pvc on the inside as a sacrificial pipe to reduce friction and the load on the steel pipe a good idea or just a waste of money? maybe use metal fins to shape the wave in the tank? Please tell me experts!
I was thinking an old propane tank with a port and barrel added with the marble of C4 hung floating in the center of the tank? There are likely better shapes and ways to taper the cylinder down to the barrel size but the concave ends are not bad. an alternative idea is get the biggest steel pipe you can and wrap it in rubber then pour cement around it and box that up. What say you thinkers with brains that know this stuff? is 2/3rds down the tank length better? I have a comment with more of this. Also looking for cartoon shticks they can do with sticks of dynamite like dynamite in gun barrel makes it peel open like a banana? test then try to recreate the cartoon result.
"Was afraid we didn't use enough explosive." Later: "Maybe the steel boiled or something."
The steel was completely smashed and torn Into pieces.
I guess this was an excessive amount of C4.
@@norbertfleck812 With a little more C4 it would be possible to do a terrorist attack in North Korea from the ground
Absolutely fabulous! Would love to see more explosive welding. Would also love to see more shaped charges using semtex...different liner materials, different geometries, different targets.
Explosives and metal dangerous? I wasn't aware. 🤣.
Love this channel!
Looks like a burnt cake😂
How about sawing it in half so you can see the cross cut?
The copper is so thin it would just look like steel all the way through, I think.
@@Xeridanus just curious on how the surfaces look between the layers.
@@PeterOekvist that's what I'm saying though, probably so thin you couldn't see it well. But I don't know. I think he said it was thicker in some parts.
@@Xeridanus so let's find out...
saw it at an angle and you might see something.
Definitely try again, this was really interesting (especially the discussion afterwards with the zoomed in pictures). I think it would be even more interesting to take away more of the material and provide us with shots of the cross section where copper and steel meet and whether you got that to be fairly straight.
Am I alone just thinking how beautiful that looks? Never mind how good it welded or how much copper stayed. That metal looked really good.
Watch the pommijätkät channel there are big explosions fking beatifull
My thinking exactly! Whole generations of potters in Japan were trying to achieve THIS look for the perfect matcha bowl... there is also a dimension of "kintsugi" as the erosion from the liquified copper is resembling the gold of the original kintsukuroi...
Who knew that literal blast waves could look so cool
I found out that if you are in Finland and you hear oopsie, don't wait around to hear daisy.
"Like someone vomited the copper." Quote of the year.
US layered coins, like the dime and quarter, get their metals fused by this process.
Large slabs get welded, then they are rolled into thin sheets.
...
There is an artist in Arizona(?) who uses Deta-sheet, flowers and sheet metal to make art.
Deta-sheet is essentially det-cord in sheet form. Usually about 2-3 mm thick, PETN and a binder.
The metal is decorated with flowers and leaves, a sheet of high explosive laid on top.
When detonated, the bits of plant disturb the shock-wave, leaving a floral pattern blasted into the metal.
Link to the work of the artist?
Yeah I wanna see this, sounds awesome
@@user255 I found a Scientific American article that possibly refers to the same artist, but in typical academic journal fashion the "sample" only has like one sentence visible. Here's the JSTOR link if anyone has the ability to track down the relevant SciAm issue: www.jstor.org/stable/24987131
@@Tobascodagama I have alumni jstor access thankfully. Here's the link to the artist mentioned there's site: evelynrosenberg.com/artist.php?p=9
Seriously stunning stuff. Pillars of Knowledge might be my favorite. Haven't seen any with plants used for the relief like originally mentioned but I suspect it's the artist they were thinking of.
Sounds like a fun as hell way to make art lmao
Watched a documentary about this process of welding and they had no gap and used Anfo instead of C4. Would love to see you try this again.
6:02 This is my favorite part.
"Did it look like this in the other videos?"
"Not in the slightest."
Looks better than most of my welding ;)
I definitely felt that..😂😂🍻🍻
Id really like to see more explosion welding - I had no idea it was (or even could) be a serious construction process.
It’s used to crimp high tension cable joints, the impact causes the joint to weld.
US clad coinage is stamped from explosively-formed bi-metalic sheets.
ruclips.net/video/XMSaX-3tOUw/видео.html
@@lairdcummings9092 what happens to all the scrap metal from the stamping process?
@@datadavis to be honest, I don't know. Never really thought about it.
"stuff is still going to happen, because we're using C4" best line of the year. Around 3 minutes.
Anni, Lauri, Hank. You three make a fine pair if ever I saw one. Total nut cases and very entertaining content .
This is really interesting, also a great way to combine machining and explosives. I hope to see more of this.
Hell yes a part 2 is needed. Great videos.
The explosion videos are the best... Never go completely as planned...
Laurie's t shirt says it all! "Professional Finn"!!!
If you didn't say it is a copper plate. I was thinking about: how are you going to explosion weld a chunk of steel to a pan cake?
me too
Truck Unbreaker i am sure enough explosies would be probably a lot less ;)
"You can weld anything to anything with explosives." I want that tee shirt!
Yeah, it would be awesome to see it done with a slower explosive like anfo!
That C4 was probably close to how an antiarmor round would react. Melting through the steel, instead of fusing to it.
From what I've read that's how some anti-armor rounds actually work. A small disc of copper in front of a shaped charge with a proximity detonator. The explosion of the charge essentially forms the copper into a small, super fast and super hot DART that penetrates the armor and then ricochets around shredding everything (and everyone) inside.
This is amazing! I love how loud C4 is
I'd really love to see the weld planed down, or machined down evenly - just to the point where it's level - to see what it looks like. it might just be something cool that you could keep as like an art piece or something.
Thankyou for all the trouble you went to, to make this video for us. Most interesting! Yes please can you do this for us again. Kind regards, and greetings from Africa.
You seem like you were having a "blast!"
Moi. As always I love sounds in slow motion and I love Anni's laugh. Thanks Moi Moi
I had samples of Titanium with Copper in my work, explosively clad together way back in the early 80's. They had been made by Nobel in Scotland from what I recall. It was possible to see the tiny wave formation at the interface of the two metals. The Titanium plate was about 25mm thick, the Copper about 5mm thick. I think the secret is near clinical cleanliness of the material surfaces and highly controlled explosion to ensure a single moving wave front between the surfaces. Well done, perhaps another attempt in much cleaner conditions and slightly thicker Copper plate .
We most definitely need more like this.
This is such a cool video, and explains why it's so hard to clean the copper and steel off of my shooting target, keep it up obviously the hydraulic press was just the beginning!
Love the States shirt he’s wearing! Keep up the good content its some of the most interesting stuff i watch, I’m currently in school for welding tech so this was super cool.
That was a great explanation of C4
this is the content i want, i love this channel
Vote for Anfo! Would like to see the whole plate milled perfectly flat, it would be beautiful
What I remember from Mythbusters is that Amfo is a slow explosive, maybe that is something that is desired in the industrial process?
Actually, you have a good point.
ANFO is like a pilot boat, C-4 is like Doomguy. The first pushes, the second rips & tears.
ANFO or AN/FO for ammonium nitrate/fuel oil
Also there is patent [1] from DuPont for EXW therein they talk about detonation velocity of 1200 - 5500 m/s.
ANFO is said to have "measuring 3,200 m/s in 130 mm (5 in) diameter, unconfined, at ambient temperature" while here [2] it's given wirth 4200 m/s in the same table C-4 being based on RDX has 8650 m/s.
[1] www.freepatentsonline.com/3137937.html
[2] en.wikipedia.org/wiki/Table_of_explosive_detonation_velocities
I remember reading somewhere that the explosion front actually pushes impurities out of the metal to metal interface as it propagates. I guess slower works better for that.
Or just use a much more massive piece of Copper.
yes we need more explosive welding until we see an a class result. love your work guys.
That was SO AWESOME!!!
I think most of the copper evaporated. Thicker copper plate and less explosives next time, and no sand around. Really hope you try this again!
Also I love these explosion videos where you don't destroy something but create something new!
The Macro zoom in starting at 10:00 is really interesting. Prrrriiiitti Guud extreme close-up photography.
Thats 100mpix photo from Samsung S20, works pretty well for a phone on this kind of stuff
@@HydraulicPressChannel "Hups väärä käyttäjä"
I can't believe that I am just seeing this video.. hilarious and awesome.. thank you!
I love your videos, I always learn something and i always laugh a lot, i can't thank you enough.
Thank you for this. More please!
Metal sheets with up to five layers were made with explosive welding techniques like this for vacuum tube plates back in the day. This is one of the reasons vintage vacuum tubes perform differently from modern production units.
Awesome. Hope to see more and with different metals and semi-metals if possible
I love these videos!
the closeup of the cut looked suprisingly amazing 😂😂
With seeing explosive welding carried out in the past and knowing what is involved etc, looking at your version of the process, the copper wasn’t thick enough and the explosive used wasn’t c4 or dynamite but the one typically used in mining as it’s levelled really precisely and like the world and it’s wife also said air gap too big, the other differences are that the people doing this properly have done it in a mineshaft for containment of material and the noise too.... I enjoyed the show thanks 🙏
In a different life, I worked for a company called Explosive Fabricators. It for sure works, it's a cheaper way to line large steel tanks with titanium.
Dear Beyond the Press: awesome videos! I love anything having to do with the science of energetic materials!
I think you should try this one again, but using an explosive with a slower VOD. I think c4 is too fast, and it ends up splattering the copper instead of keeping it together in one piece. Try Dynamite, or even ANFO. There should be an optimal VOD that keeps the copper in one piece, yet still slams them together with enough force to weld.
Munroe effect aside, I was laughing right along. Great fun had by all. Thanx for the show.
Yes it would be interesting to see more of explosive welding.
"Don't try this at home". Phew, thanks. I was just about to order 50 kilos of C4 on Amazon. Lol! Great video!
Words to live by:
"You can weld anything to almost anything using explosives."
And... You can get shit stains out of your shorts with explosives too ! But that don't mean you should !!
more of an instant spray weld than an explosive impact weld
They obviously were doing it for fun because this is not how you weld. And Spray Welding would be way more controlled than whatever the hell you want to call what they did.
YES. Please do this again. Lets have a series of tries until there is a proper welding of the 2!
fun video! would like to see a second try, and this time please show how the explosives were packed around the two metals. cheers!!
Very cool!!
I would have loved to have gotten a piece of this to cross section this in my lab and get a really good idea what the copper penetration into the steel looked like.
Oh heck yeah, I want to see you try this again.
Thats one of the most Finnish titles I've ever read.
Friggin love you guys 🇺🇸
I'd love to see comparisons between different explosion energies... bonus points if they are detonated sequentially!
Very cool looks like contamination from surrounding materials. Shaping the detonation would probably give more uniformity.
Great video !!
Greetingas from Argentina
In college (almost 30 years ago) I had to write a paper on explosive metal working. It's cool to see it happen (no RUclips 30 years ago 🤔). Explosives were used to form Saturn rocket nosecones. Maybe you could try some underwater forming with explosives.
The explosive welding I have seen was making copper clad steel. The used a large slab of steel and placed copper sheet on top using seperator pieces to hold them apart about one centimeter. They initiated the explosion from one corner so it traveled across the piece. I'm pretty sure they didn't use C-4 as it has a burning rate much too fast.
Very cool. I hope your vacation is going well. Although you're probably working on moving, so not much of a vacation.
I used to be a hard rock miner here in Ontario . Loved blasting rock into small rock using various explosives and techniques. There used to be a CIL product called Power Packs . It was a nitro based explosive that came in a plastic sleeve and weighed about 1 lb . However, I found it to be very effective on large oversize rocks if I cut open the package and shaped the explosive inside very similar to a chocolate drop and placed a blasting cap into the tip of the charge .
This explosive felt very much like modelling clay .. very nice and formable . After the shot , there was nothing left of the large rock, just shattered into much smaller pieces . Sure beat hell out of carrying a jack leg over the rock pile and having to drill a shot hole into oversize . Bloody hard work that .
That frame at 4:00 shows the magic very well!
Wow what a great job guys. I'll have to get Bomb Hank over to weld some repairs on my trailer some day 😂
I've machined miles of aluminum plate explosively bonded to steel to make faying strips for welding an aluminum deckhouse to a steel deck on a ship. The paperwork that came with it described the process fully. Ir was 40 years ago but I recall it well.
The steel plate to be bonded was placed flat on a 14" thick "inertia block" (can't recall the official name) made from a salvaged chunk of battle ship armor plate. There was some form of barrier between the plate to be explosively bonded and the anvil block so the two wouldn't bond. I think it was a couple layers of plain paper. Both the steel plate to be bonded and the aluminum were freshly sandblasted to white metal. They were spaced about a millimeter apart with bits of aluminum wire scattered randomly and sparsely. This spacing was critical. The closing velocity if too low wouldn't bond: if too high the softer metal would squirt out like mayonnaise. They controlled the closing velocity by controlling the spacing.
The explosive (I think it was AMFO, a white powder, anyway) was spread on top with a screed to a specific thickness. The explosion was initiated by a booster strip and a cap array to start what was called a "linear wave" the full width of the plate.
The steel was roughly 20mm thick and the aluminum 15mm. The bond was very difficult to machine through to make strips. We used regular lathe parting tools in a planer. The interface undulated something like ocean waves and the crests were very hard. They'd catch and break the parting blade once or twice per part no matter how careful we were.
The bonded plates came in 4 ft x 12 ft (1.2 x 3.6 meters) pieces which we parted into 25mm strips the length of the plate. It was mostly an easy job until we hit the interface: that was a nightmare.
Here's a link to Pacero Products, the successor to Northwest Technical Services who supplied the material to us in the late '70's:
pacaero.com/products/explosive-bonded-metals/explosive-metal-welding-technical-overview/
Google has pages of offerings using "explosive welding" as a search term.
I got a Mr. Clean Magic Eraser ad. How appropriate.
What you presented was the effects of a " shaped charge " explosion. Two explosive materials are set inside a projectile the first being like your demonstration , a contact explosion of molten copper hitting the target with then the main explosion after the target has been melted.
Thank you for the post/subject in any case as always.
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I'd love to see blast wave visualized with a smoke column beneath the explosion next time.
I'd love to see a part 2
Yes! Thank you!
That is pretty cool. Definitely would like to see more videos of explosive welding. Try making diamonds with explosives.
Late comment but yeah I would love to see another go at this!
I’d like a part 2 for sure
"Professionally Explosion Welded Parts" Something about this phrase excites and terrifies me at the same time.
I would like to see it done again. Thank you very much.
Hey beyond the press channel! Yes please more explosion welding! Use a thicker copper sheet! Ride ride ride!
proffesional Finn !! love it !! ha ha ah ! As a swede from Gothenburg I love the Finnish people , suomalaiset :) (except when the beat us in icehockey)
Interesting experiment...🇬🇧👍
Be safe have fun thank you for sharing
Amazing video, you need to smoothen the upper side of the explosives more even and reduce the distance from steel to copper to abaut 1cm
Can you try shaped charge versus big rock - i allways wondered why shaped charges are not used in underground mining since they are pretty precise and fast to set up
Hi, do you hear of SEMTEX? Its plastic explosive like C4 but i hear, its 4x more eficient ;) Its from our country Czechoslovakia
Really good, just need a bit of tuning the c4 to get that clean and shiny end result :D
Maybe try 1/2 of the boom clay on each side or like 1/3 on copper side and 2/3 on the thicker steel side. also what about making an arrow launcher or something like that by taking a big metal tank and attaching a barrel to it and a port so you can load it with things.
YOU NEED TO MAKE A C4 POWERED POTATO GUN AND TRY TO MAKE ONE SHOOT AN ARROW LIKE JORGE SPRAVES ARROW GUNS!!! Make a test rig with some old propane tanks and test the size of charge you can blow up when its hanging in the air in the middle with a 2 inch hole on the end. Make at least 3 of them and then weld the barrel to the top. Worst case scenario they are one time use potato guns, see if you can send a potato through steel even if its just a few millimeters thick so then you can put that as the title! and make 4 evolution's of the design so you can call it the V4-C4 Potato launcher and yell fore before you shoot it!
Or try to recreate some Willey Coyote(or any other cartoons like Tom and Jerry or Herman and Katnip ect) and try to do whatever they tried but right or safer. like dynamite stick in a shotgun barrel, does that make a banana peel gun barrel? what does it take to make it do that to the barrel? fire a bullet with a plug welded onto the front?
The explosion has to be super exact and be in a wave type trigger so it has a uniform force from one side to the other pushing the air from between the two metals and have a much smaller gap between the two. But Holy cow that actually fused the two together. xD
You only need a flat layer (sheet) of explosives on top. No standoff needed. Explosive cladding/welding is easily achievable with smaller amounts as well. Although you dont get a huge explosion, it wont deform the material as much.
Next time, place a small copper sheet on there with a coin in between and it will make an impression of the coin in the steel with stunning detail.
Its hard to believe this is common place but it is. I've wielded clad steel that was used in mining operations. Wite iron to mild steel for use in stone crushing operations. Great experiment though. I really like it. Id like it if you did some more for sure. 👍
I don't have anything to add about explosion welding but a Beyond the Press video attempting friction welding would be cool.
Yes, try ANFO, with a thicker piece of copper, a smaller gap, and cleaner surfaces. Also, based on the other videos on RUclips, use little pieces of copper as spacers, so you don't have to perch the copper on the sticks.