World premiere 2019: Combined Laser Deposition Welding and 5-axis milling of large 3D metal parts up to ø 1.250 mm, 730 mm in Z and up to 2.000 kg table load.
No technology will make us smarter. We have technologies that would minimize many modern problems but we don't use it for anything other than killing each other. Sometimes it is only used for something good so that small people can wipe a little tears ...
@@Nynexx I was talking about technological progress alone, which we mostly waste, could save our lives. The gun can be printed at home although it will be a rather one-time fun weapon. The fact that you will not print from metal does not change anything anyway, progress is progress if for obvious reasons you do not print, you buy cheaper ...
Without the technology, no matter how hard we try, there is always poverty! So the good news is additive manufacturing and automation&robotic will lead us to abundance era quicker. However, we-human needs to find the way how to define ourself in that era.
@@bryanho1777 LOL! he might be making $200k a year and he couldn't afford that machine. He still wants it. MeToo. What is cool is that someday soon we will be able to order parts online made on this machine. It is a glorious time to be alive.
@@bryanho1777 Poverty has nothing to do with technology. It is social problem. In current society, and current state of human culture and behavioral features of the human species, rapid development of technologies as such will lead to extinction of 90% of population in optimistic scenario. And this will happen in near 50 years. And thous who survive will find themselves in cyber GULAG or in a dark ages society. There is no, not a single one positive philosophy for humanity survival in near future. Only escape to Mars for the chosen ones (and not the fact that this will happen). At this moment there is only two massively adopted solutions for poverty. 1. Kill all poor people, and leave only elite. 2. Make everyone poor.
@@Llirik13 The poverty problem is about education system and resources allocation. However, if we do not solve the natural resources problem, there will always be poverty, when you kill all poor people, it will generate another pack of them as well. Because poverty meaning some people are relatively poor than those are rich.
Great rendering on the model. The transition between the CGI and the real demo was absolutely seamless. The quality of the modelling and the complexity of it is beautiful. Great job to the 3D artists! And of course, the engineers!
They build full 3d CAD models of the machines before they even go into productions, so i'd expect that level of detail for the machine. but ya, once it started doing 3d printing and stuff it was all real footage of the machine in operation. like you can even see the part number etched on the printing nozzle, and little specs of dust on the surfaces, that's not something thats on the 3d models they started of showing
@@Cara.314 You have got it right. The real machine does exist. The Lasertec 125 3D hybrid was shown off for the first time at the formnext in Frankfurt. Although the video sequences were shot using the smaller brother, Lasertec 65 3D hybrid. Both are available to buy.
4 года назад
A universe of possibilities opens in my mind. This machine is the dream of all inventors and engineers! Congratulations to the people who developed this technology!
@@Alex-wg1mb Many thanks for the compliment. The applications we target for the machine try to avoid any post treatment. Off the machine and directly into service. This is a big time saving on processes, such as the repair of die cast moulds.
If all those features are to be truly implemented this system will be a leap in AM process development. Most companies bring accumulative and careful upgrades to their systems, whereas this one is just bold and very courageous. If you are open for radical innovation we need to talk.
In fact this machine uses the same tech as we have been using on the smaller Lasertec 65 3D hybrid that we have had on the market for 5 years. Incremental improvements come with the AM Assistant process monitoring systems.
Very impressive. I am not specialised in direct energy deposition but been working on developing multi-material AM processes for a while, and this system carries great potential for radical new ideas! Nice work!
This is absolutely mind blowing technology.. I have seen the first versions of this type of hybrid machines popping up for last few resent years and will definitely make a huge shift on the way we build stuff.. also in the crazy organic designs of the future manifacturared parts.. now we have almost no limits on the design side and we can freely think of the designs in a different ways and make parts that was impossible to make by now after 100000 years of human living on this planet... I can already imagine a crazy efficient jet turbine blades with crazy internal structures and variable hardness on different area of the design and improve the efficiency.. can see the new engine s , new bread of electro motors, new car parts, aircraft parts.. it is absolutely amazing... love it... I would buy one tomorrow if I could afford one.. but I will make it happen... I dont look at it as homeless looking to it from otherside of the window at all..
Does someone know the name of the soundtrack used in this Video? This is an absolutely awesome piece of machinery! I'm proud of the German engineering.
@Erol Bayraktarov MORI is indeed a Japanese company. DMG on the other hand is German. The company "DMG MORI A.G." is registered under the ISIN "DE0005878003" in Bielefeld, Germany .... So I think it would be safe to assume that they are a German company ;-)
At best we get a net of 90% building a cube in 316L. This drops to 80% for typical applications that are more complex. Don't worry about the waste. Washed out of the machine by the coolant of the milling process.
LOL, so I work on big industrial FDM machines and one of my customers bought one of these last year... Hasn't worked the entire time, the company basically moved a repair tech to houston from germany to work on it
Hey, I plan on developing and industrial grade huge 3d printer this summer, if you could give my any pointers or things you like and dont like or wish on the printers you have used, and if you could name any examples of printers I would highly appreciate that!
Love to know how the structural integrity of the finished piece holds up. Also time of fabrication...would it be cost effective for large runs of parts.
The additive part should be seen as a way to avoid massive material loss in some parts, and a way to make parts that are otherwise impossible to produce. Many of the latter will be low production runs, the former will actually be used at scale
Structural integrity has to be good, otherwise people wouldn't buy it. The method of welding is nothing new. It is just how we at DMG MORI put this technology together that makes it into a viable product for our customers. One of our customers has run over 13,000 parts throught the smaller brother Lasertec 65 3D hybrid this year. This is an exceptional case with a deposition measured in grams. Mostlythe machine is used for smaller production runs.
As a product design student i would love to have a machine like this at school. Fully test it in the weirdest ways possible. Truely put it to the test. I hope it can handle some abuse ;)
The cmx800v is misconstructed. Why add a toploading capability, if i cant even drive the crane to the middle of the table? it is impossible to top load this machine beyond half of the tably y length except to push the part by hand
Studying 3D printing. The powder is shot onto the targeted surface and is sintered (melted) into place by the laser. As can be seen from the video, the system is automated to recognize the distances between flying powder, the laser and the target surface to minimize material loss.
I wish we built the additive machines in the US factory. It's only built in the Germany plant. We do horizontal and vertical machining centers and a turning center. Horizontal is $350k and up, the horizontal starts at $110k, and the turning center starts at $320k.
Cool on paper, but the real question - is its own frame conventionally fabricated or produced with the same process with a larger machine, testifying to the genuine quality and abilities of the process?
Probably not. And why would they? Conventional is the cheapest way and has proven to be sufficient. Laser sintering is meant for specific purposes for example prototyping and so on. The material is insanely expensive and let's say a huge block for a base is really not sensible. Would make the machine far too expensive to buy. Or you are being sarcastic in which case you can ignore me. :D
@@-krispy- This is depositon welding. Not sintering. Important difference. Much more closely aligned to traditional welding. The material is expensive, but not insanely. Sometimes it is the waste material not used for sintering. Soemtimes the same material is used for flame spraying or plasma spraying. This expensive material is best applied sparingly to an area on a part that need a specific function, such as good wear resistance. Cheaper than making a big block of hard to machine wear resistant material.
