@@Phelan666 Rosin is a solidified resin from which the volatile terpenes have been removed by distillation; I don't know of any 3d printing process which uses or produces such materials.
I have to laugh at the $50 in resin used to fix a $30 saw, but obviously that wasn't the point. Great demonstration, I wouldn't have thought it would hold up as well as it did.
Why just buy a tool when you can spend twice the amount of money to try and make one yourself - it makes you appreciate the real tool that you buy in the end so much.
I get what you are saying, but if you can re-use the mold for multiple copies ... Admittedly this particular item might not be the best example for that.
I’m watching all of your videos and I have seen the evolution from how you film them and I must say the newer videos are much more attention holding and entertaining while maintaining all of the cool machining and knowledge. I’m glad you read and take consideration into comments from your viewers. It has made viewing even more enjoyable =)
this is so true, i just came back to this one after seeing it in my recommended. His new stuff is crazy different. He really upped his game with the editing
This is a common issue with forming dies. You were on to something when you said the die was in tension. To overcome this issue you can press fit the brittle material like tool steel, carbide or plastic into an outer ring. The key is to preload the die cavity further than it would naturally stretch during the bending operation. This prevents the tool material from goin into tension. The best way to do this is to add some draft angle to the die insert and make the opposite shape in the outer ring that is smaller by the amount of compression you need. You would then press the insert into the ring to achieve the interference desired. If you get it right the die will not split. You would then be limited by the compressive strength of your tool material.
I love science man. I just works, and when you see it, in the moment. That we are slowly becoming the masters of everything (if we don't blow ourselves up before then), it boggles my mind
@@Stagg369 the problem is we're not masters of ourselves, so the blowing ourselves up part is inevitable. More people were killed last century than the previous 19 combined.
@@gracefool A total of *50 billion people lived between 0-1900 compared to a total of 10 billion between 1900-2000. I question your assertion. * Estimated
Kind of amazing how far your videos have come in these past two years. I'd love to see some "smaller" more exploratory videos like these two sheet metal forming videos in addition to the "large and strange" project videos.
This channel is awesome. I appreciate you going back and trying it without the machined part, too. That attention to detail really makes the channel great.
Quick audio suggestion: I've noticed in many of your videos that your compressor successfully cuts in whenever you drop a part on the bench to avoid an overly loud bang, however the release time is quite long so your voice is too soft for a moment after each time you do this. If you reduce the release time by 100-200 ms it should fix this. Additionally prepend a high pass filter with a well chosen low cutoff frequency before the compressor, and you will have less power in the bang of a dropped part which will help keep that out of your final audio without removing too many low frequency harmonics from your voice or the other interesting sound you want to keep in videos like these.
I greatly appreciate the time, the effort, and the expense of doing all these experiments and the fact that you’re sharing it with us! It looks like you’re working through the challenges in a very logical and efficient manner.
Over 15 years ago I worked for a company that churned out millions of metal pieces per month. I learned a lot about punching and forming metals from pure observation of the manufacturing process. Metal forming has always fascinated me. Watching you do this with 3D printed dies is amazing.
Made some bending and punching dies for a project a few years back- incredibly satisfying. It is great to see what a fantastic job you have done with plastic forms. Love your plasma cutter
Excellent video! I’m a hobbiest and far from a machinist, but the fact that you vocalized the pressures involved and the reasons the dies broke really got me thinking. I learned a lot in 20 minutes! Keep it up.
Is not hard , they actually make a kit to do it in your oven.. eastwood makes the powder and you statically charge the powder with a special gun and ground the part then bake on the powder in the oven... perty cool but couldnt be nearly as skookem as factory coated parts where theyre put in a kiln...
@Stuff Made Here Happy one year since your first UA-cam video upload. Wishing you a very happy and successful decades to come of building, designing, programming and bringing enjoyment to millions. I will be following your UA-cam career closely and permanently. Thanks for your hard work and excellent content. You're appreciated to infinity and beyond. Cheers
just started to watch this vid.. i am a former engineer at Panasonic America. I worked on the cowling for the Boeing 777 Rolls Royce Engines, which is aluminum based metallurgy. The molecular work is the same for ferrous metals. Get the metal in a form where the molecules become fluid, and then move them to their max position, anneal the base metal, and repeat.. if you are doing all your work at STP, and do not ever anneal, you are "wrecking" the structures that you want saved for the final product. Ie.. it takes 20 process steps to move aluminum 1/4 of an inch, 3D. But, once you get there.. best possible product, which will not shear and fissure apart with micro vibrations.. love your stuff..
I am recent subscriber and I can FEEL the difference between his recent videos and this one and it is crazy how much he has grown as a content creator in this while because I love his recent videos with the little jokes and everything
Its amazing to see the progress of this channel in 11 months! The production value, the writing (!) and the projects have gotten really really good in a super short amount of time. I wonder how many subs this channel had in march 2020? 2m in Feb 2021
0:50 take a digital photo online, print it, then film it again... I am glad your editing chops are more refined today, I just found this interesting! btw this is one of your best series (if 2 is a series) I would love for you to look at SED's video on stamping dies and look at what's possible, maybe take a bruton design and say "these parts would be better as stamped metal" (of course you need to cut the holes, but a chinese sponsor could help there, but you can drill/cut sheet metal in shop or by hand even, to maintain the DIY robotics ideas)
I’ve been looking for something like this for a while. Happy to find this. Subscribed. I’m planning to try something like this with PETG on an FDM printer. I learned some things here. Looking forward to future videos.
The reason I watched this is because you have pretty much done something I want to try. I learned quite a bit from your success and failure. Keep up the good work.
For us makers the journey is as rewarding as the destiny. Yes, it may not be cost effective for one project, but what we learn will eventually pay dividends on future projects. This is a great teaching video by walking us through your thinking/solving process!
I've seen a number of people using 3d printed press brake tooling, but this is the first time I've seen printed forming tools like this. Very interesting.
Nice job, man. There's nothing at all wrong with printing hobby models, but it's great to find a youtuber using 3D printing for actual functional parts for once. I have a resin printer (highly accurate but the resins are typically even more brittle) but use it to print either a form which I can make a silicon mould around and then cast one out of a high-strength, two-part resin, or if geometry allows, print the mould directly, add a release agent and just pour resin straight in . Asides from the obvious benefit of having stronger forms, you can also use much less print resin (or filament) as most of the structure is infill because it doesn't need to be strong. Can also add glass fibre or carbon fibre to the two-part resin to further increase strength. Obviously this creates one more step, but it's a good middle ground between expensive, machined metal forms and brittle, instant 3D printed parts.
There are videos here on UA-cam that make metal parts from 3D printed parts "lost pla casting", in the last one I saw the results where pretty good. You can use that to bend ticker parts
I think this might be a good application for casting. Print the form shape, use it to make a silicone mold, then cast the actual form in a casting resin. Probably there are casting resins that are much more durable than printing resins, and cheaper too. The other nice thing is, once you have the mold it's very quick and cheap to make more forms if/when they wear out. Crafsman/SteadyCraftin has some good videos about this process (there are some stumbling blocks, like certain UV-cured printing resins will prevent silicone from curing properly if you don't seal them well).
This so interesting, I know you couldn't work out every little detail but as someone who has worked at a company designing new machines and spending thousands upon thousands on tools and dies; This is super promising for reducing the cost of designing machinery. For a company moving into mass production, creating parts in this way is an absolute necessity and this could be a way to drastically reduce research and developments costs. Can I ask what resin and 3D printer you used for this process?
This. Replicating a replacement part for a cheap tool is not the end goal here. Being able, to for work or hobby, take something from an idea to forming metal is game changing.
This video has shown up in my UA-cam recommendations on and off for months now. It was only after watching your awesome collaboration with Dusty and checking out your channel further that I realised it was also one of yours. Not sure what that says about the power of celebrity vs the UA-cam algorithm, but the algorithm knew me well enough to know I'd like it, still it took a celebrity endorsement to get me to actually watch it?? Anyway, I've watched most of the videos on your channel now and loved them all. Good stuff, the software engineer in me really appreciates your sense of humour.
Thank you. I hope your channel takes off! I've been toying with this concept in my head for a while, but I'm not an engineer. Seeing you put in action is a real inspiration. I want to make press formed metal panels (brass) for scale auto/rail modeling. Imagine a true to scale unibody or Monocoques made from 3D printed die press formed parts.
Brass would be a lot easier than steel. I tried to do this on hard mode with 16/18 gauge steel which is incredibly strong. No need to be an engineer to do this if you have 3D modeling skills. This could be done in blender or any other modeling packages.
Not really maker life, anybody that works hands on for a living has frequently injured fingers. My dad installs windows and doors, and he once brought me home the point of his finger pad and asked me to put it back on😂
Wow man... You have lots of skill, patience, intelligence, time, and money.... And much more. HATS OFF MAN,! love n like all u r videos. Wish i could be like u.
It’s crazy that this guy hasn’t been on UA-cam for long at all and only has a few videos up but still has a ton of followers and gets loads of views. I remember his first videos and didn’t believe that this channel was that young. Crazy how quick all this happened
A lot of these parts are done in two stages with the second just finishing up where the first one messed up, but there’s also two stage presses that punch the metal and some holes out after the initial pressing is done and the cutters are just deeper in the mould
An intermediate stage should definitely reduce the stress. If I can't get this to work with a stronger material then that's next on my to-do list. This is often done in progressive die forming operations. PLA might survive at 100% infill. It's really soft but if you avoid super high local stresses it might work out.
I've played around with this a little, ABS was fine with 0.065" aluminum. From what info i could find, i think the SLA resins are weaker. Great video, thx for sharing.
Exactly my point! It’s not like layer lines would get transferred to the part anyways. And when properly oriented, FDM would not only hold up to the vertical compressive force much better, but also be particularly well suited for the expansive force provided by the part while bending.
New sub! My daughter and I enjoy watching you make all your great ideas a reality, can't believe didn't come across your channel sooner regardless glad we did!. Keep up the great content!.
More likely: "I'm already 6 hours in on a different 40+ hour print and I'll be damned if I'm stopping it now when I can churn this out on the mill in 30 min."
Just... WOW!!! Your channel went VIRAL!!! 115K Subs in 2,5 MONTHS!!! Keep it up, and keep building such cool stuff! Also a collaboration with This Old Tony could turn out great!!!
Subscribed. Your sheer determination was awesome to watch on this project. Looking at the press footage I'd say the main issues are aligning the downward force equally across the piece. What you said about multiple passes or stages of forming could definitely be the trick to get a square finish over all the bends.
In this case and previously working with some dies to do similar work. I would normally have seen the center slot actually formed first with an outer ring also "starting" the outer bends, with the second outerbend process done after in a side by side machine process. For automation the second press would have an actuated pin in the slot that would then grab the part on the way back up and eject it, so the operator/loading system only ever really needed to load in a new blank and the machine handle the punch/prebend> shift over to next position > final bend and eject. Then simply machine shifts back over and is ready for a fresh blank.
I'm impressed by the resin! If you watch the video again of the shaft camming before the die breaks, you can see the top plate of metal actually bend a few degrees before the die breaks and the plate springs back. That was something like .25" thick steel or aluminum, right? That resin held up to some serious force before breaking.
First and more importantly, this was a really neat video. Second, I just saw a video on PSU material if you have the enclosure, heated bed (160 degrees, so ac powered bed), and all metal hot end to do it. Very strong stuff. That all being said, I laughed when you said A Holes. My inner 12 year old is alive and well.
When you make dies that are weak, provide support from the sides. You could make a steel or aluminum "box" that the die sits in to support it from bursting. You can make your 3D printed dies smaller, saving material and printing time. In industry, some forming is done by having hard rubber lower "die". It is supported on all sides, so it is essentially a "hydraulic" die. Advantage is that only 1 die need be made, and there can be less trouble with parts sticking in the die.
Wow. Who knew you could press metal with plastic dies (well, at least once 😉). That's impressive. I would have tossed the idea straight out, but you proved it can be done. Very impressed!
waterjet cutter is doing a so much cleaner cut, no burn, and with greater accuracy, also you can cut thicker stuff, and non-conductive materials. Maybe it makes a bigger mess, but you would have to install it somewhere outside. (if the water has abrasive material, the slurry may be hazardous waste, depending on the abrasive material used.)
You are 90% there to hydroforming. I'm pretty sure the 3D printing can be used as bucks and forming dies. But with the hydroforming techniques, the flowing medium supports the material all the way around. Giving you much crisper features. My favorite DIY version just uses a steel box and a rubber pad with the shop press. ua-cam.com/video/xw5yEMsDxR8/v-deo.html
Don’t know if you’ll see this, or if you’ve thought about this already, but I believe making the front part of the blade guard perpendicular to the blade is advantageous. Like in a situation where you need to make a cut perpendicular to the cutting surface but you can’t see the back part of the cut.
es cierto, pasa con muchos videos, el titulo dice FACIL DE HACER, HAGALO UD MISMO HECHO EN CASA, POR SOLO 1 DDOLAR, Etc, luego termina ocupando una maquina industrial de $100000 para hacer una pieza que cuesta $1
For forming the center feature, Clamp the part in your two die half's but have the top die have allow for a punch to form the feature via passing through a hole in the top die instead of the spine thats currently part of the top half. As your part will be evenly clamped prior to forming the center feature you should expect to get a better formed feature and less cracking of dies as they will be under pressure from clamping. It would also be neat to see a milled punch and die single step press tool milled out of steel, It should be possible for that part but would be tall and require very good fitting for clean cutting..
dude, for whatever reason the style by which you go about in producing these videos is reminiscent of another legendary artist known for his style he had about him, Robert Norman Ross. Now, there's more contrast than similarities between a painter and a mechanical engineer, but that which I see bonds the styles is at the archetypal level of representation. For example, the unwillingness to compromise from your passion in life. That transcends through the camera from the combination of attention to the viewer and the care and detail in the explanation, and then we benefit.
So you used tens of hours and 30k+ of equipment to fix 10c part from a $20 powertool? Also how do you print such thick objects? With my cheap resin printer the part comes off the buildplate if it's thicker than 2mm...
Your vise setup, you need to show that, looks interesting. I bend stuff in my vise often but much more of a hack. I like the video, good job good lesson. Best of luck to you. Cheers!
This is really cool, the spring design was super well done. Normally I would expect the blade guard on a sawzall to have a little bit of pivot along the axis of the rivets so it can stay flat to your work piece.
As a Tool and Die maker it was interesting to see you work through this, impressive what you were able to do with 'plastic', really
Resin.
chara dremur that is the reason he put air quotes
@@charadremur333what do you think resin is?
@@charadremur333 Rosin.
@@Phelan666 Rosin is a solidified resin from which the volatile terpenes have been removed by distillation; I don't know of any 3d printing process which uses or produces such materials.
I have to laugh at the $50 in resin used to fix a $30 saw, but obviously that wasn't the point. Great demonstration, I wouldn't have thought it would hold up as well as it did.
We build $500,000 cells to make $0.27 taser darts for $200 guns 😉
Why just buy a tool when you can spend twice the amount of money to try and make one yourself - it makes you appreciate the real tool that you buy in the end so much.
is sla that expensive?
I get what you are saying, but if you can re-use the mold for multiple copies ... Admittedly this particular item might not be the best example for that.
@@xConundrumx Not sure how many times... Exploding dies were a theme :D
His dads such a genius.
Creates a genius with the help of his wife, which 30 years later fixes his tools for him.
Master of all plot twists
His dad's wife 3D printed a genius.
@esp ele wha
It was is master plan all along
I’m watching all of your videos and I have seen the evolution from how you film them and I must say the newer videos are much more attention holding and entertaining while maintaining all of the cool machining and knowledge. I’m glad you read and take consideration into comments from your viewers. It has made viewing even more enjoyable =)
this is so true, i just came back to this one after seeing it in my recommended. His new stuff is crazy different. He really upped his game with the editing
Yeah and not only the editing part, the way he handles himself in the videos is so much better. And way funnier too haha
This is a common issue with forming dies. You were on to something when you said the die was in tension. To overcome this issue you can press fit the brittle material like tool steel, carbide or plastic into an outer ring. The key is to preload the die cavity further than it would naturally stretch during the bending operation. This prevents the tool material from goin into tension. The best way to do this is to add some draft angle to the die insert and make the opposite shape in the outer ring that is smaller by the amount of compression you need. You would then press the insert into the ring to achieve the interference desired. If you get it right the die will not split. You would then be limited by the compressive strength of your tool material.
I love science man. I just works, and when you see it, in the moment. That we are slowly becoming the masters of everything (if we don't blow ourselves up before then), it boggles my mind
That's a great explanation, thank you for sharing fantastic info and insight like this!
@@Stagg369 the problem is we're not masters of ourselves, so the blowing ourselves up part is inevitable. More people were killed last century than the previous 19 combined.
@@gracefool A total of *50 billion people lived between 0-1900 compared to a total of 10 billion between 1900-2000. I question your assertion.
* Estimated
@@ruukinen Sorry I should've said "killed in war". I don't know about killed all up. And of course the average person died younger.
Kind of amazing how far your videos have come in these past two years. I'd love to see some "smaller" more exploratory videos like these two sheet metal forming videos in addition to the "large and strange" project videos.
This channel is awesome. I appreciate you going back and trying it without the machined part, too. That attention to detail really makes the channel great.
Quick audio suggestion: I've noticed in many of your videos that your compressor successfully cuts in whenever you drop a part on the bench to avoid an overly loud bang, however the release time is quite long so your voice is too soft for a moment after each time you do this. If you reduce the release time by 100-200 ms it should fix this. Additionally prepend a high pass filter with a well chosen low cutoff frequency before the compressor, and you will have less power in the bang of a dropped part which will help keep that out of your final audio without removing too many low frequency harmonics from your voice or the other interesting sound you want to keep in videos like these.
I like your funny words magic man.
I've been looking into getting better at basic audio editing. Got anymore tips?
Thanks for sharing this! Dabbling in compression myself.
I greatly appreciate the time, the effort, and the expense of doing all these experiments and the fact that you’re sharing it with us! It looks like you’re working through the challenges in a very logical and efficient manner.
Over 15 years ago I worked for a company that churned out millions of metal pieces per month. I learned a lot about punching and forming metals from pure observation of the manufacturing process. Metal forming has always fascinated me. Watching you do this with 3D printed dies is amazing.
Made some bending and punching dies for a project a few years back- incredibly satisfying. It is great to see what a fantastic job you have done with plastic forms. Love your plasma cutter
Excellent video! I’m a hobbiest and far from a machinist, but the fact that you vocalized the pressures involved and the reasons the dies broke really got me thinking. I learned a lot in 20 minutes! Keep it up.
hobbyist
@@NoName-zn1sb Thonks!
@@NoName-zn1sbI think he meant he is hobbier than others, and thus hobbiest.
If you do the powder coating in house, I'd love to see a video on that
Is not hard , they actually make a kit to do it in your oven.. eastwood makes the powder and you statically charge the powder with a special gun and ground the part then bake on the powder in the oven... perty cool but couldnt be nearly as skookem as factory coated parts where theyre put in a kiln...
There's a few ways to do it. A coat of oil then "shake n' bake" would work for that small stuff. Or the hot air gun method.
Most innovative use of 3d printer I've seen in a long time!
Try searching for a UA-cam buddy.
@@reallynothing6845 He said " most innovative" not "weirdest"
IMO that's what 3D printing is about. Making prototypes rapidly to test comcepts
12:49 you missed a golden opportunity to say "that die has died"
@Stuff Made Here Happy one year since your first UA-cam video upload. Wishing you a very happy and successful decades to come of building, designing, programming and bringing enjoyment to millions. I will be following your UA-cam career closely and permanently. Thanks for your hard work and excellent content. You're appreciated to infinity and beyond. Cheers
"somehow lost the blade guard"
"lost"
just started to watch this vid.. i am a former engineer at Panasonic America. I worked on the cowling for the Boeing 777 Rolls Royce Engines, which is aluminum based metallurgy. The molecular work is the same for ferrous metals. Get the metal in a form where the molecules become fluid, and then move them to their max position, anneal the base metal, and repeat.. if you are doing all your work at STP, and do not ever anneal, you are "wrecking" the structures that you want saved for the final product. Ie.. it takes 20 process steps to move aluminum 1/4 of an inch, 3D. But, once you get there.. best possible product, which will not shear and fissure apart with micro vibrations.. love your stuff..
I am liking all the creativity I am seeing on UA-cam. Well done, bro.
I am recent subscriber and I can FEEL the difference between his recent videos and this one and it is crazy how much he has grown as a content creator in this while because I love his recent videos with the little jokes and everything
Its amazing to see the progress of this channel in 11 months! The production value, the writing (!) and the projects have gotten really really good in a super short amount of time. I wonder how many subs this channel had in march 2020?
2m in Feb 2021
2.4m March 3, 2021
Also, the memes
3.58 M 1er January 2022
0:50 take a digital photo online, print it, then film it again... I am glad your editing chops are more refined today, I just found this interesting! btw this is one of your best series (if 2 is a series) I would love for you to look at SED's video on stamping dies and look at what's possible, maybe take a bruton design and say "these parts would be better as stamped metal" (of course you need to cut the holes, but a chinese sponsor could help there, but you can drill/cut sheet metal in shop or by hand even, to maintain the DIY robotics ideas)
I’ve been looking for something like this for a while. Happy to find this. Subscribed. I’m planning to try something like this with PETG on an FDM printer. I learned some things here. Looking forward to future videos.
The reason I watched this is because you have pretty much done something I want to try.
I learned quite a bit from your success and failure.
Keep up the good work.
I feel like a learned a lot in this video. Excited for part 2.
For us makers the journey is as rewarding as the destiny. Yes, it may not be cost effective for one project, but what we learn will eventually pay dividends on future projects. This is a great teaching video by walking us through your thinking/solving process!
Very excited to be another subscriber! Great content, as an engineer I enjoy these deeply
I've seen a number of people using 3d printed press brake tooling, but this is the first time I've seen printed forming tools like this. Very interesting.
This is awesome…hope your Dad appreciates the fix for the saws all
Its insane how far you have become since this! Always looking forward to the stuff you make there
Top notch video. Gained a sub. Keep doing what you're doing and you'll be at 1m subs in no time.
looks like you might be right
Yeah, it literally took no time at all lol. As of 10-13-20 (6 months after OP), he's already at 1.07 mil!
@@MetalMario137 He’s gained 200,000 since your comment only six days ago!
This comment aged well.. 😎
9 months later and he's about to hit 2M
its fun to see how industry in Nepal doesn't have stuff you have and the knowledge is through the roof. keep up with the great work !
After 2 years in eng, I can finally understand most of the terms Shane is referring to
Nice job, man. There's nothing at all wrong with printing hobby models, but it's great to find a youtuber using 3D printing for actual functional parts for once. I have a resin printer (highly accurate but the resins are typically even more brittle) but use it to print either a form which I can make a silicon mould around and then cast one out of a high-strength, two-part resin, or if geometry allows, print the mould directly, add a release agent and just pour resin straight in . Asides from the obvious benefit of having stronger forms, you can also use much less print resin (or filament) as most of the structure is infill because it doesn't need to be strong. Can also add glass fibre or carbon fibre to the two-part resin to further increase strength. Obviously this creates one more step, but it's a good middle ground between expensive, machined metal forms and brittle, instant 3D printed parts.
Nice idea and execution, also decent explaining, I like where this is going!
Also, I think you and This old Tony have the same manicure studio :D
I watched the whole thing because every one of your carefully selected words are both entertaining and informative. What a great channel. 👍👍
"Gives me that great feeling of instant gratification I'm seeking"
The number of decisions I've made in my life for that very reason 🤣
That end result with powder coating looked amazing. Great job sir.
There are videos here on UA-cam that make metal parts from 3D printed parts "lost pla casting", in the last one I saw the results where pretty good. You can use that to bend ticker parts
Phe-friggin-nominal channel mate. Excellent work. Came across your videos after buying a 3x1.5m router. So inspirational.
Can I use 3D printed parts to bend steel?
> Machines the die anyway
Half cheating or not, I'm digging the videos. Keep it up!
I think this might be a good application for casting. Print the form shape, use it to make a silicone mold, then cast the actual form in a casting resin. Probably there are casting resins that are much more durable than printing resins, and cheaper too. The other nice thing is, once you have the mold it's very quick and cheap to make more forms if/when they wear out.
Crafsman/SteadyCraftin has some good videos about this process (there are some stumbling blocks, like certain UV-cured printing resins will prevent silicone from curing properly if you don't seal them well).
There are casting resins which can be SLA printed, I believe.
This so interesting, I know you couldn't work out every little detail but as someone who has worked at a company designing new machines and spending thousands upon thousands on tools and dies; This is super promising for reducing the cost of designing machinery.
For a company moving into mass production, creating parts in this way is an absolute necessity and this could be a way to drastically reduce research and developments costs.
Can I ask what resin and 3D printer you used for this process?
Yes, if the plastic version even holds up for one pass of forming, you know you can make the same form in steel for mass production.
This. Replicating a replacement part for a cheap tool is not the end goal here. Being able, to for work or hobby, take something from an idea to forming metal is game changing.
Starting a binge of all your videos liking videos as I go. Been watching you for years. Great videos. Thabk you for making them.
Am I gonna be the one to say it ok
0:00 legend was born
Yeah dude, probably the fastest growing channel I’ve seen. He’s gained 2.7 million subs in one year. Very impressive.
This video has shown up in my UA-cam recommendations on and off for months now. It was only after watching your awesome collaboration with Dusty and checking out your channel further that I realised it was also one of yours. Not sure what that says about the power of celebrity vs the UA-cam algorithm, but the algorithm knew me well enough to know I'd like it, still it took a celebrity endorsement to get me to actually watch it?? Anyway, I've watched most of the videos on your channel now and loved them all. Good stuff, the software engineer in me really appreciates your sense of humour.
1 year of Chanel and 2 million subscribers... This guy is savage
As someone who has 10 years in a sheetmetal fab shop I'm impressed!
Very nice and interesting, I'm looking forward for the next part!
@@capitalm417 yes it was
Bloody legend…
U were the first of the first kaliin
Very comprehensive, well presented and shows overcoming pitfalls. Excellent video.
Thanks! I'm glad you like it
Thank you. I hope your channel takes off! I've been toying with this concept in my head for a while, but I'm not an engineer. Seeing you put in action is a real inspiration. I want to make press formed metal panels (brass) for scale auto/rail modeling. Imagine a true to scale unibody or Monocoques made from 3D printed die press formed parts.
Brass would be a lot easier than steel. I tried to do this on hard mode with 16/18 gauge steel which is incredibly strong. No need to be an engineer to do this if you have 3D modeling skills. This could be done in blender or any other modeling packages.
I can't believe this is his first UA-cam video and he's just been killing ever since.
it isnt actually he has older videos but i think he privated it already
This was fun! I just subbed! Your approach to learning and teaching reminds me of Applied Science.
Great project, it shows the capabilities of resin printed moulds. Well done.
Has tormak, does not have color printer.
*helped create tormak
I love that you have a $100KCNC mill and a Harbor Freight band saw. I love that...
I love how injured your hands are.
That's the maker life xD
Not really maker life, anybody that works hands on for a living has frequently injured fingers. My dad installs windows and doors, and he once brought me home the point of his finger pad and asked me to put it back on😂
@@Livlocalmartian no one asked for it
Holy sh*t, you've only been making videos for a year?? Your new videos seem like you've been making them for 5+. Welldone!
9:12 "I kept on smashing to see if I got anything out of it..."
Phrasing man! Phrasing! 😆😆
Wow man... You have lots of skill, patience, intelligence, time, and money.... And much more. HATS OFF MAN,! love n like all u r videos. Wish i could be like u.
Great project and really well presented!
It’s crazy that this guy hasn’t been on UA-cam for long at all and only has a few videos up but still has a ton of followers and gets loads of views. I remember his first videos and didn’t believe that this channel was that young. Crazy how quick all this happened
Awesome video. What material were you printing with? PLA? ABS?
Looks like SLI printing in resin. Not sure.
@@shifty7739 Yeah he says it's resin near the end of the video 19:35
that is form labs tough resin
well, the blue die was.
The grey one looks like tough 2000 form labs resin. It is resin for a SLA printer. I have one too and the prints are so much stronger than FDM prints
@@LittleRainGames i think the blue one is draft resin, my draft is blue at least and the layers seem quit high
A lot of these parts are done in two stages with the second just finishing up where the first one messed up, but there’s also two stage presses that punch the metal and some holes out after the initial pressing is done and the cutters are just deeper in the mould
I'd be curious to see how an FDM material like PLA would stand up. Or if an intermediate forming stage would reduce the stress involved?
An intermediate stage should definitely reduce the stress. If I can't get this to work with a stronger material then that's next on my to-do list. This is often done in progressive die forming operations.
PLA might survive at 100% infill. It's really soft but if you avoid super high local stresses it might work out.
I've played around with this a little, ABS was fine with 0.065" aluminum. From what info i could find, i think the SLA resins are weaker.
Great video, thx for sharing.
@@StuffMadeHere I've seen it done and will do it myself with low infill (~10%, as open as possible) and filled with epoxy to make it much more solid.
When you realize there is no video on this channel with less than a million views
Such Quality videos
Makes massive, solid SLA parts. That’s it.
LJTwiggy I was wondering if FDM would work better? A solid piece with properly annealed layers could do wonders. Plus it works to FDM’s strength
Exactly my point! It’s not like layer lines would get transferred to the part anyways. And when properly oriented, FDM would not only hold up to the vertical compressive force much better, but also be particularly well suited for the expansive force provided by the part while bending.
New sub! My daughter and I enjoy watching you make all your great ideas a reality, can't believe didn't come across your channel sooner regardless glad we did!. Keep up the great content!.
"The printer wasn't available". You mean you didn't want to wait the eight hours it was going to take make a new one. Lol
More likely: "I'm already 6 hours in on a different 40+ hour print and I'll be damned if I'm stopping it now when I can churn this out on the mill in 30 min."
Just... WOW!!! Your channel went VIRAL!!! 115K Subs in 2,5 MONTHS!!! Keep it up, and keep building such cool stuff! Also a collaboration with This Old Tony could turn out great!!!
$1000 dollars worth of engineering, to fix a $20 saw .... love it :)
I probably would have bought a new one. Took the blade guard off and put it on the old one. Then returned the new one and them it was missing.
Subscribed.
Your sheer determination was awesome to watch on this project.
Looking at the press footage I'd say the main issues are aligning the downward force equally across the piece.
What you said about multiple passes or stages of forming could definitely be the trick to get a square finish over all the bends.
3d magic Mike has done many 3d printed dies
In this case and previously working with some dies to do similar work. I would normally have seen the center slot actually formed first with an outer ring also "starting" the outer bends, with the second outerbend process done after in a side by side machine process. For automation the second press would have an actuated pin in the slot that would then grab the part on the way back up and eject it, so the operator/loading system only ever really needed to load in a new blank and the machine handle the punch/prebend> shift over to next position > final bend and eject. Then simply machine shifts back over and is ready for a fresh blank.
Shared on 3d printing club Facebook group (36k members).
-Ken
I'm impressed by the resin! If you watch the video again of the shaft camming before the die breaks, you can see the top plate of metal actually bend a few degrees before the die breaks and the plate springs back. That was something like .25" thick steel or aluminum, right? That resin held up to some serious force before breaking.
Me {desperately trying to salvage a toxic relationship}: 9:14
First and more importantly, this was a really neat video.
Second, I just saw a video on PSU material if you have the enclosure, heated bed (160 degrees, so ac powered bed), and all metal hot end to do it. Very strong stuff.
That all being said, I laughed when you said A Holes. My inner 12 year old is alive and well.
15:45 nice vise!
When you make dies that are weak, provide support from the sides. You could make a steel or aluminum "box" that the die sits in to support it from bursting. You can make your 3D printed dies smaller, saving material and printing time.
In industry, some forming is done by having hard rubber lower "die". It is supported on all sides, so it is essentially a "hydraulic" die. Advantage is that only 1 die need be made, and there can be less trouble with parts sticking in the die.
“Hopefully you enjoyed this. If you didn’t, I have no idea why are you still watching this” 😂😂😂
Wow. Who knew you could press metal with plastic dies (well, at least once 😉). That's impressive. I would have tossed the idea straight out, but you proved it can be done. Very impressed!
Next step, an ak bending jig lol
waterjet cutter is doing a so much cleaner cut, no burn, and with greater accuracy, also you can cut thicker stuff, and non-conductive materials. Maybe it makes a bigger mess, but you would have to install it somewhere outside. (if the water has abrasive material, the slurry may be hazardous waste, depending on the abrasive material used.)
Milling really is just 3D unprinting. :D
I’m just in awe at your genius.
You are 90% there to hydroforming. I'm pretty sure the 3D printing can be used as bucks and forming dies. But with the hydroforming techniques, the flowing medium supports the material all the way around. Giving you much crisper features. My favorite DIY version just uses a steel box and a rubber pad with the shop press.
ua-cam.com/video/xw5yEMsDxR8/v-deo.html
Don’t know if you’ll see this, or if you’ve thought about this already, but I believe making the front part of the blade guard perpendicular to the blade is advantageous. Like in a situation where you need to make a cut perpendicular to the cutting surface but you can’t see the back part of the cut.
Thumbnail: "Made with 3D printed tools"
1:45 - Shows a giant plasma cutter
es cierto, pasa con muchos videos, el titulo dice FACIL DE HACER, HAGALO UD MISMO HECHO EN CASA, POR SOLO 1 DDOLAR, Etc, luego termina ocupando una maquina industrial de $100000 para hacer una pieza que cuesta $1
Magnificent job. I like how determined you were to do it 'right'.
How many people are waching this cas it is his first video
For forming the center feature, Clamp the part in your two die half's but have the top die have allow for a punch to form the feature via passing through a hole in the top die instead of the spine thats currently part of the top half. As your part will be evenly clamped prior to forming the center feature you should expect to get a better formed feature and less cracking of dies as they will be under pressure from clamping.
It would also be neat to see a milled punch and die single step press tool milled out of steel, It should be possible for that part but would be tall and require very good fitting for clean cutting..
Moral of the story: you get what you pay for at Harbor Freight.
dude, for whatever reason the style by which you go about in producing these videos is reminiscent of another legendary artist known for his style he had about him, Robert Norman Ross.
Now, there's more contrast than similarities between a painter and a mechanical engineer, but that which I see bonds the styles is at the archetypal level of representation. For example, the unwillingness to compromise from your passion in life. That transcends through the camera from the combination of attention to the viewer and the care and detail in the explanation, and then we benefit.
So you used tens of hours and 30k+ of equipment to fix 10c part from a $20 powertool?
Also how do you print such thick objects?
With my cheap resin printer the part comes off the buildplate if it's thicker than 2mm...
You missed the point of this entirely.
Your vise setup, you need to show that, looks interesting. I bend stuff in my vise often but much more of a hack. I like the video, good job good lesson. Best of luck to you. Cheers!
look at 3dmagicmike on instagram, he did some very succesfull sheetmetal forming with 3d printed dies.
Beat me to it. @3d_magic_mike
Brilliant, innovative AND persistent = BRAVO!
You've come a long way from a vice break huh good job
This is really cool, the spring design was super well done. Normally I would expect the blade guard on a sawzall to have a little bit of pivot along the axis of the rivets so it can stay flat to your work piece.