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Terima kasih kepada AP Archive untuk akses ke rekaman arsip mereka. Musik oleh Epidemic Sound: Lagu: Terima kasih kepada pendukung patreon saya: Adam Flohr, Henning Basma, Hank Green, William Leu, Tristan Edwards, Ian Dundore, John & Becki Johnston. Nevin Spoljaric, Jason Clark, Thomas Barth, Johnny MacDonald, Stephen Foland, Alfred Holzheu, Abdulrahman Abdulaziz Binghaith, Brent Higgins, Dexter Appleberry, Alex Pavek, Marko Hirsch, Mikkel Johansen, Hibiyi Mori. Viktor JΓ³zsa, Ron Hochsprung.
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I do not have enough time to make a teamtrees video for Real Engineering, but we did make a video about methods to conserve rainforest habitats over on Real Science. I planted 1000 trees yesterday over on teamtrees.org. Every tree gets us closer to our 20 million target. https://www.youtube.com/watch?v=mV6GL7RrXz8&t=1s
90% of the time something of a household gadget fails is through poor design. They can fail in two ways. No 1 isa that internal sharp corners concentrate the stress. No2 is that the component is impossible to clean. I guess that No 1 could be inculcated by studying the Comet failures which cost lives, and if they had to clean their designs they would realise that the difference is 0.002% extra or less material. Kids on computers don't make good designs.
Why is SpaceX so good at this 3D printing
I don't see why they can't just do a fast weld just to get the material molded together and after the item get fully printed to do a full forge to str. all the bond. I just think if you can at least get the material stuck in place were it need to be that you would have more control afterward on how to smelt it all together so to speak..
Amazing work
ππππ
thanks!!!
So, is there a situation where the material properties are better with a random crystal structure instead of a perfect crystal?
Would a steel crystal knife new better or worse or even different in any way?
butsh…
Could a magnet be printed in a way that could produce energy or storage of ? A new generator/linear motor. Micro elec motors?
One tech that has the problem less than the slm process shown by the microscope it's ded. Ded uses an air injected stream of metal powder that intersects the focal point of a laser.
Metals lathe is usually touted as the facilitator of the industrial revolution but sure we can go with the cylinder boring machine.
Dude SpaceX 3D prints its raptor engines since 2013 π
and they work pretty darn well
What about metal FFF printing?
Awsome!!!
All about the peart-hhhh.
We are fortunate to be at the point in history where we can create new means of manufacturing and understand them at a fundamental level that we never could have before. This means that the level of development potential and iteration possibilities is quite extreme. However, getting to a point where we can utilize this technology will undoubtedly require significant time and investment.
Itβs impossible to say what the future will hold for this technology, as we are barely infants in it and machine learning. The next 50-100 years will likely see more development in manufacturing than all human history prior to the advent of 3D printing.
Was that example of an injection molded part a tampon applicator?
The future end of real 3D Printing replicater Machines like those on StarTrek will be when a 3D Printer replicaters can work at a molecular level and produce an object out of the materials that exist within the surrounding atmosphere once the products D.N.A. has been computed into the machines computer brain. For instance we can already take methane hydrogen and oxygen from out of water ice and from out of the atmosphere on Mars therefore it will be just a matter of adapting that same machine type to perform and manifest into being more functions such as more materials etc then we will really be talking Star Trek replicaters but I suspect that will be at least another 10-20 years in the coming but if we are lucky and get someone like Elon Musk behind the problem then this all could be a lot sooner as we now already have machines which 3D Print D.N.A. products we are already able to replicate Human Skin Tissue and some human organs as well as Human Ears on a 3D Printer machines as well as such complicated metal things as whole rocket engines and engine parts in fact we even now almost replicate anything on a 3D Printer machine.
Love your video, The only part I disagree with is throwing away the metal. I used to work for an aerospace company and they recycled every scrap metal they could. I talked to a bunch of other milling companies they all recycle their scrap. They depend on recycling scrap so much that it's in the budget. Other than that this video is great. Keep up the good work.
Where does your accent come from?