3D printing is hot

3D Printing Flies High now. Articles on three-dimensional printers are popping up everywhere these days. And nowadays there are many 3D printer products. Some are small enough to fit in a briefcase and others are large enough to print houses.

Everything you ever wanted to know about 3D printing article tells that 3D printing is having its “Macintosh moment,” declares Wired editor -in-chief Chris Anderson in cover story on the subject. 3D printers are now where the PC was 30 years ago. They are just becoming affordable and accessible to non-geeks, will be maybe able to democratize manufacturing the same way that PCs democratized publishing.

Gartner’s 2012 Hype Cycle for Emerging Technologies Identifies “Tipping Point” Technologies That Will Unlock Long-Awaited Technology Scenarios lists 3D Print It at Home as important topic. In this scenario, 3D printing allows consumers to print physical objects, such as toys or housewares, at home, just as they print digital photos today. Combined with 3D scanning, it may be possible to scan certain objects with a smartphone and print a near-duplicate. Analysts predict that 3D printing will take more than five years to mature beyond the niche market. Eventually, 3D printing will enable individuals to print just about anything from the comfort of their own homes.Slideshow: 3D Printers Make Prototypes Pop article tells that advances in performance, and the durability and range of materials used in additive manufacturing and stereolithography offerings, are enabling companies to produce highly durable prototypes and parts, while also cost-effectively churning out manufactured products in limited production runs.

3D printing can have implications to manufacturers of some expensive products. The Pirate Bay declares 3D printed “physibles” as the next frontier of piracy. Pirate Bay Launches 3D-Printed ‘Physibles’ Downloads. The idea is to have freely available designs for different products that you can print at home with your 3D printer. Here a video demonstrating 3D home printing in operation.

Shapeways is a marketplace and community that encourages the making and sharing of 3D-printed designs. 3D Printing Shapes Factory of the Future article tells that recently New York Mayor Michael Bloomberg cut the Shapeways‘ Factory (filled with industrial-sized 3D printers) ribbon using a pair of 3D-printed scissors.

The Next Battle for Internet Freedom Could Be Over 3D Printing article tells up to date, 3D printing has primarily been used for rapid commercial prototyping largely because of its associated high costs. Now, companies such as MakerBot are selling 3D printers for under $2,000. Slideshow: 3D Printers Make Prototypes Pop article gives view a wide range of 3D printers, from half-million-dollar rapid prototyping systems to $1,000 home units. Cheapest 3D printers (with quite limited performance) now start from 500-1000 US dollars. It is rather expensive or inexpensive is how you view that.

RepRap Project is a cheap 3D printer that started huge 3D printing buzz. RepRap Project is an initiative to develop an open design 3D printer that can print most of its own components. RepRap (short for replicating rapid prototyper) uses a variant of fused deposition modeling, an additive manufacturing technique (The project calls it Fused Filament Fabrication (FFF) to avoid trademark issues around the “fused deposition modeling” term). It is almost like a small hot glue gun that melts special plastic is moved around to make the printout. I saw RepRap (Mendel) and Cupcake CNC 3D printers in operation at at Assembly Summer 2010.

There has been some time been trials to make 3D-Printed Circuit Boards. 3D Printers Will Build Circuit Boards ‘In Two Years’ article tells that printing actual electronics circuit boards is very close. Most of the assembly tools are already completely automated anyway.

3D printing can be used to prototype things like entire cars or planes. The makers of James Bond’s latest outing, Skyfall, cut a couple corners in production and used modern 3D printing techniques to fake the decimation of a classic 1960s Aston Martin DB5 (made1:3 scale replicas of the car for use in explosive scenes). The world’s first 3D printed racing car can pace at 140 km/h article tells that a group of 16 engineers named “Group T” has unveiled a racing car “Areion” that is competing in Formula Student 2012 challenge. It is described as the world’s first 3D printed race car. The Areion is not fully 3D printed but most of it is.

Student Engineers Design, Build, Fly ‘Printed’ Airplane article tells that when University of Virginia engineering students posted a YouTube video last spring of a plastic turbofan engine they had designed and built using 3-D printing technology, they didn’t expect it to lead to anything except some page views. But it lead to something bigger. 3-D Printing Enables UVA Student-Built Unmanned Plane article tells that in an effort that took four months and $2000, instead of the quarter million dollars and two years they estimate it would have using conventional design methods, a group of University of Virginia engineering students has built and flown an airplane of parts created on a 3-D printer. The plane is 6.5 feet in wingspan, and cruises at 45 mph.

3D printers can also print guns and synthetic chemical compounds (aka drugs). The potential policy implications are obvious. US Army Deploys 3D Printing Labs to Battlefield to print different things army needs. ‘Wiki Weapon Project’ Aims To Create A Gun Anyone Can 3D-Print At Home. If high-quality weapons can be printed by anyone with a 3D printer, and 3D printers are widely available, then law enforcement agencies will be forced to monitor what you’re printing in order to maintain current gun control laws.

Software Advances Do Their Part to Spur 3D Print Revolution article tells that much of the recent hype around 3D printing has been focused on the bevy of new, lower-cost printer models. Yet, significant improvements to content creation software on both the low and high end of the spectrum are also helping to advance the cause, making the technology more accessible and appealing to a broader audience. Slideshow: Content Creation Tools Push 3D Printing Mainstream article tells that there is still a sizeable bottleneck standing in the way of mainstream adoption of 3D printing: the easy to use software used to create the 3D content. Enter a new genre of low-cost (many even free like Tikercad) and easy-to-use 3D content creation tools. By putting the tools in reach, anyone with a compelling idea will be able to easily translate that concept into a physical working prototype without the baggage of full-blown CAD and without having to make the huge capital investments required for traditional manufacturing.

Finally when you have reached the end of the article there is time for some fun. Check out this 3D printing on Dilbert strip so see a creative use of 3D printing.

2,056 Comments

  1. Tomi Engdahl says:

    How about use Distance Sensor on your 3D printer
    it detects the distance from the nozzle to bed and then adjust Z axis height in real time.
    https://hackaday.io/project/185096-how-about-use-distance-sensor-on-your-3d-printer

    Reply
  2. Tomi Engdahl says:

    The Sub-$100 Easythreed X1 3D Printer, Is It More Than A Novelty?
    https://hackaday.com/2022/06/21/the-sub-100-easythreed-x1-3d-printer-is-it-more-than-a-novelty/

    There was a time when a cheap 3D printer meant an extremely dubious “Prusa i3” clone as a kit of parts, with the cheapest possible components which, when assembled, would deliver a distinctly underwhelming experience. Most hackerspaces have one of these cheap printers gathering dust somewhere, usually with a rats-nest of wires hanging out of one side of it. But those awful kits have been displaced by sub-$200 printers that are now rather good, so what’s the current lowest end of the market? The answer lies in printers such as the sub-$100 Easythreed X1, which All3DP have given a review. We’ve been curious about this printer for a while, but $100 is a bit much to spend on a toy, so it’s interesting to see their take on it.

    What’s the Cheapest 3D Printer Actually Like to Use?
    https://m.all3dp.com/4/cheapest-3d-printer-hands-on-review/

    Amid the battleground that is budget 3D printing, it’s easy to forget that even the likes of the Creality Ender 3 (a perennially cheap and recommended 3D printer) isn’t the cheapest. Far from it.

    It’s So Small

    First things first, the Easythreed X1 is small. That’s not surprising for a 3D printer that costs less than $100.

    Its build volume is a pipsqueakish 100 x 100 x 100 mm, and the printer itself is not much bigger at 210 x 210 x 250 mm (not counting the slim control box, which is umbilically attached and sits off to the side). For comparison’s sake, your typical Ender 3 style printer has a size in the region of 400 x 400 x 500 mm.

    The X1’s smallness is thrust on you when it gets delivered – the box it ships in is tiny. Barely larger than a spool of filament.

    To Easythreed’s credit, the presentation of the X1 is better than we’ve seen from printers many times its price. The X1 comes with a legible if a little small (yes, even the instructions are tiny) manual that walks you through the simple build process.

    It is virtually ready-to-run, with all of the main assemblies already built for you. All building requires of you is to slot together the cantilever style X- and Z- axes, screw them in place, and attach the spool holder. Fiddle-free and quick.
    Delicate, Dinky Printing

    With the internet’s cheapest 3D printer assembled before us and ready to run, it’s here that we can start to see why it’s so cheap. It feels incredibly fragile.

    Stepper motor cables are of a tiny gauge, and during one stage of the assembly, we trapped one, digging into the insulation and noticeably weakening it. Such cases may be why EasyThreed includes two spare stepper motors, with cables, in the box.

    Sitting flush on the desk, the whole thing wobbles, too. This is remedied somewhat by four tabs of sticky-back foam; provided.

    Everything here is a scale of magnitude smaller than found on pricier budget 3D printers. It’s clear why the X1 is advertised as a 3D printer for kids – it feels very much like a preassembled Arduino kit, small parts cobbled together for demonstration, rather than a productive 3D printing tool.

    Not So Hot Bed

    In almost every regard, the X1 is a beginner’s 3D printer. The experience is pared back, basic, and approachable. There’s no heated bed, though the mainboard inside can accommodate one. The hot end is capped to 230 ℃, so you’re limited to PLA. The path through the extruder and hot end isn’t tight, so flexible filaments are unlikely to work.

    For the act of simply toying around with 3D printing and rattling off a few trinkets or small, functional PLA prints, the X1 is adequate. The process of slicing and getting a surprisingly decent print off its flexible magnetic bed is effortless, just don’t expect dazzling results. Dimensional accuracy and the X1 are not good bedfellows, and only the simplest of prints, when printed slowly, have a pleasant finish to them.

    Extrusion seems strong and stable – any issues we’ve seen with prints we’ve completed on the X1 appears to stem from motion.

    The slicer, EasyWare, comes on a microSD card or can be downloaded online. It’s quirky. We’ll start with the good.

    EasyWare slices well, chewing models into machine-readable G-code in no time (using the Cura slicing engine).

    Crack open the advanced printing settings, and you have a lot greater control of the particulars of your print, just as you do in any of today’s popular free slicers.

    Besides this core functionality of slicing, EasyWare is a mess.

    Using the EasyThreed X1 is a mixed bag. There are constant reminders that it’s a ~$100 3D printer; every contortion of your fingers when twisting the four tiny bed-leveling thumbscrews, and with every explosive tangle of sample filament due to the printer’s inability to hold anything but the smallest of spools.

    The conspicuous lack of a display on the X1 is probably the most obvious sign that this is the cheapest 3D printer. Besides the cheerful plastic almost everywhere you look, of course.

    This lack of a display could’ve been a problem were it not for the printer being so utterly fool-proof. The X1’s control box features four buttons corresponding to four actions or functions.

    Hit Play

    Finally, there’s a “play” button, which does just that; it loads up the most recently sliced model on the microSD and “plays” (prints) it. Further presses will pause and unpause the print, and a long press will cancel the job outright.

    Such “headless” printing may seem a little daunting, but in practice, it works well enough on the X1. You are missing information on the state of the printer, including important things like the hot end temperature and time remaining. Still, over a few days of printing, we never found ourselves second-guessing what the printer was doing.

    Between the one-click slicing in EasyWare and the “play” button on the machine, you can prepare and print a model in just two button presses – something most printers can’t do.

    The Easythreed X1 is a little like an ogre, which is to say, a little bit like an onion. It has layers. Between the buggy slicer, lack of features, and fragility, there is a functional 3D printing experience and the occasional layer of refinement that has taken us by surprise. It’s easy to set up and easy to use. The prints may not be the prettiest, but it does print. The embodiment of cheap and cheerful.

    Unfortunately for the cheapest 3D printer, not a lot more money can get you a lot more printer. For all its charm (if you even are charmed by quaint, plasticky electronics), the X1 pales in comparison to many manufacturers’ base model 3D printers. The Voxelab Aquila (our current under-$200 pick) costs $159, less than $60 more than the X1’s ~$100, offers approximately eight times the build volume, silent printing, and a heated bed for wider material compatibility. Plus a display, of course.

    It’s a stark difference and easy to find multiple examples of. While the X1 has been a fun little departure from the typical 3D printing we do – it is undoubtedly far better than the mess we unfairly thought it would be. Ultimately we see no reason to check one out for anything other than curiosity.

    Reply
  3. Tomi Engdahl says:

    Inside 3D Printing Shoes
    https://hackaday.com/2022/06/21/inside-3d-printing-shoes/

    If you’ve ever thought about 3D printing shoes, you’ll enjoy watching the video below about a Portland-based company that creates shoes on demand using an HP MJF 5200 3D printer. Granted, this isn’t a printer you likely have in your basement. The one-ton printer costs up to a half-million dollars but watching it do its thing is pretty interesting.

    The printer doesn’t create the entire shoe, but just a spongy foam-like TPU footbed and heel. They run the printer overnight and get about a dozen pairs out at once. There’s quite a bit of clean-up to get the piece ready. Of course, there’s also the assembly of the rest of the shoe to take into account

    One of the advantages of this approach is apparently the lack of waste. We didn’t know, but apparently conventional shoes wind up in landfills. These shoes are made to recycle and the company offers a discount to those sending in old pairs.

    Business
    Portland company Hilos creates sustainable, 3D printed shoes – watch how they’re made
    https://www.oregonlive.com/business/2022/06/portland-company-hilos-creates-sustainable-3d-printed-shoes-watch-how-theyre-made.html

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  4. Tomi Engdahl says:

    Extruded Resin FDM Printing (With Lasers!)
    https://hackaday.com/2022/06/22/extruded-resin-fdm-printing-with-lasers/

    At this point, 3D printers are nearly everywhere. Schools, hackerspaces, home workshops, you name it. Most of these machines are of the extruded-filament variety, better known as FDM or Fused Deposition Modelling. Over the last few years, cheap LCD printers have brought resin printing to many shops as well. LCD printers, like their DLP and SLA counterparts, use ultraviolet light to cure liquid resin. These machines are often praised for the super-high detail they can achieve, but are realllly slow. And messy — liquid resin gets everywhere and sticks to everything.

    We’re not exactly what [Jón Schone] of Proper Printing was thinking when he set out to convert a classic printer to use resin instead of filament, but it had to be something along the lines of “Can you make FDM printing just as messy as LCD printing?”

    https://www.youtube.com/watch?v=ZslI-Z9SZUg

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  5. Tomi Engdahl says:

    PrusaSlicer Now Imports STEP Files, Here’s Why That’s A Big Deal
    https://hackaday.com/2022/08/17/prusaslicer-now-imports-step-files-heres-why-thats-a-big-deal/

    PrusaSlicer has a new feature: the ability to import a CAD model for 3D printing. Starting in version 2.5.0-beta1, PrusaSlicer can import STEP format 3D models. An imported STEP file is converted to a triangle mesh on import (making it much like a typical .stl or .3mf file) which means that slicing all happens as one would normally expect. This is pretty exciting news, because one is not normally able to drop a CAD format 3D model directly into a slicer. With this change, one can now drag .stp or .step files directly into PrusaSlicer for printing.

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  6. Tomi Engdahl says:

    Food Safe 3D Printing: A Study
    https://hackaday.com/2022/09/05/food-safe-3d-printing-a-study/

    [Matt Thomas] wanted to answer the question of whether 3D printed structures can be food-safe or even medical-safe, since there is an awful lot of opinion out there but not a lot of actual science about the subject. As a mechanical engineer who dabbles in medical technical matters, he designed as series of tests using a wide range of nasty-sounding pathogens, to find once and for all what works and what does not.

    The Final Say In Food Safe 3D Printing
    https://lt728843.wixsite.com/maskrelief/post/the-final-say-in-food-safe-3d-printing?fbclid=IwAR2f-ptYuNVmD1Db3OHvbT8JwYG887D_4QESCtCloFsmHSFgWDbb6DMgpRo

    The scope of this project is to provide an understanding and a methodology to show that 3D printed objects can indeed be cleaned to levels good enough for the operating room. Testing methods, findings and all procedures will be documented in this report. One should be able to reproduce my work and prove to themselves that 3D printed parts are food safe and easy to clean.

    Items we tested were of the following: PLA+, PLA, PETG, 3D printed respirator mask, glass squares for control samples, shirt, cotton mask, metal fork, metal spoon, my fingernails and hands after washing them. The 3D printed mask was cut into pieces to use as samples. I also have some cubes and first layer prints inoculated with Salmonella typhimurium.

    Conclusion

    After much preparation, and testing, I have concluded that 3D printed parts can be cleaned to operating room standards. Does this mean they are food safe? Yes, and No. Yes, because they can be cleaned and con hold dry foods with no issues. No, because with liquids, they can cause the color additives and binders used in the filament to POSSIBLY leach out. It is rare, but still possible. To be safe, and this is my lawyer talk, it is best to coat a 3D printed object in resin. According to title 21 of the FDA, resins are food safe after a full curing time.

    The real question is, is it worth 3D printing food wares? Granted its fun and cool, but its more expensive and very time consuming. A plastic bowl at my local box store is 50 cents. To 3D print a bowl is 12 hours of electricity, plus $1.5 worth of filament.

    Reply
  7. Tomi Engdahl says:

    With A Little Heat, Printed Parts Handle Vacuum Duty
    https://hackaday.com/2022/09/13/with-a-little-heat-printed-parts-handle-vacuum-duty/

    We don’t have to tell the average Hackaday reader that desktop 3D printing has been transformative for our community, but what might not be as obvious is the impact the technology has had on the scientific community. As explained in Thermal Post-Processing of 3D Printed Polypropylene Parts for
    Vacuum Systems by [Pierce Mayville], [Aliaksei Petsiuk], and [Joshua Pearce], the use of printed plastic parts, especially when based on open source designs, can lead to huge cost reductions in the production of scientific hardware.

    Thermal Post-Processing of 3D Printed Polypropylene Parts for Vacuum Systems
    https://www.mdpi.com/2504-4494/6/5/98

    Reply
  8. Tomi Engdahl says:

    https://www.uusiteknologia.fi/2022/09/16/3d-metallitulostin-massatuotantoon/

    Kirjoitinvalmistaja HP on julkistanut uudenlaisen metalliosien massatuotantoon Metal Jet S100 -3D-tulostimen- Uutuus esiteltiin Chicagossa meneillään olevassa IMTS22-messuilla lisälaitteineen.

    HP:n Metal Jet S100 nopeuttaa myös kappaleiden suunnittelua ja mahdollistaa laadukkaiden metalliosien tulostamisen massatuotantona. Tarjolla on uuden tulostimen lisäksi modulaarinen joukko tuotannossa tarvittavia lisälaitteita. Se mahdollistaa tulosteiden kulkemisen neljän eri työskentelyaseman välillä.

    Yrityksessä uskotaan, että uudenlaisten 3D-tulostimien kasvu ja sen tuomat mahdollisuudet nopeuttavat suunnittelua, parantavat prosessien kehitystä, ja nyt ensimmäistä kertaa tuottavat myös todellista mittakaavaetua myös 3D-tulostuksen tuomisessa massatuotantoon.

    HP:m uuden tulostimen isotrooppiset ominaisuudet eivät myöskään vaadi jälkikäsittelyä eikä tuen poistoa. Lisäksi metallijauheiden käyttö on myös laserpohjaista 3D-tulostusjauhetta edullisempaa.

    https://www.hp.com/us-en/printers/3d-printers/products/metal-jet.html

    Reply
  9. Tomi Engdahl says:

    Tour JLC 3D Printing Factory with Naomi Wu
    https://www.youtube.com/watch?v=BrqLo5nKLlY

    JLC3D was founded in 2021and it belongs to JLCPCB. JLC3D committed to printing 3D plastic, metal models, CNC processing molds, and other services.
    In this video SexyCyborg-Naomi Wu will show you how JLC3D factory looks like,and you will know more about JLC3D.

    Custom 3D Printed Enclosures from $1

    By 3D printing your enclosure with JLCPCB, you can create a finished product experience for your hardware. Price as low as $0.07/g
    https://jlcpcb.com/3d-printing/CTT

    Reply
  10. Tomi Engdahl says:

    Glass 3D Printing Via Laser
    https://hackaday.com/2022/09/19/glass-3d-printing-via-laser/

    If you haven’t noticed, diode laser engraver/cutters have been getting more powerful lately. [Cranktown City] was playing with an Atomstack 20 watt laser and wondered if it would sinter sand into glass. His early experiments were not too promising, but with some work, he was able to make a crude form of glass with the laser as the source of power. However, using glass beads was more effective, so he decided to build his own glass 3D printer using the laser.

    This isn’t for the faint of heart. Surfaces need to be flat and there’s aluminum casting and plasma cutting involved, although some of it may not have been necessary for the final construction. The idea was to make a system that would leave a layer of sand and then put down a new layer on command. This turned out to be surprisingly difficult.

    DIY Glass 3D Printer
    https://www.youtube.com/watch?v=3Fu6rpGI2m4&t=31s

    Reply
  11. Tomi Engdahl says:

    3D Printed String Vase Shows What’s Possible
    https://hackaday.com/2022/09/20/3d-printed-string-vase-shows-whats-possible/

    Overhangs are the bane of the melty-plastic 3D printing world. Often, we try to avoid them with creative print alignments, or we compensate with supports. However, [3DPrintBunny] decided to embrace overhangs in the extreme in the design of her creative 3D-printed string vase.

    The design is intended to be printed with a larger nozzle, on the order of 0.8 mm or so, at a layer height of 0.6 mm. Under these conditions, the printer nozzle bridges the gap between the vase’s pillars with a single string of molten filament. With the settings just so, the molten filament stays attached during the bridging operation, and creates a fine plastic string between the pillars. Repeat this across the whole design, and you get an attractive string vase.

    https://twitter.com/3DPrintBunny/status/1568783133440614400

    Reply
  12. Tomi Engdahl says:

    When 3D Printing Gears, It Pays To Use The Right Resin
    https://hackaday.com/2022/09/26/when-3d-printing-gears-it-pays-to-use-the-right-resin/

    There are plenty of resins advertised as being suitable for functional applications and parts, but which is best and for what purpose?

    According to [Jan Mrázek], if one is printing gears, then they are definitely not all the same. He recently got fantastic results with Siraya Tech Fast Mecha, a composite resin that contains a filler to improve its properties, and he has plenty of pictures and data to share.

    Testing Siraya Tech Fast Mecha: A (r)evolution In Functional 3D-printing?
    https://blog.honzamrazek.cz/2022/02/testing-siraya-tech-fast-mecha-a-revolution-in-functional-3d-printing/

    There are many resin printing materials out there marketed as “engineering”, “for functional parts”, “heavy-duty”. Since I got into the resin printing world, I tried a large number of them. However, none of them in my opinion didn’t deliver what was promised. The main challenges are not only low strength but also low impact resistance and most notably insufficient surface properties. Most of the 3D-printing resins out there are easy to scratch and when two surfaces mate, they have relatively high friction, and, most notably, they grind each other and form a white powder.

    I was given the opportunity to test a new material – Siraya Tech Fast Mecha that claims to be suitable for articulated functional parts. The marketing is that the material doesn’t grind when two surfaces interact. Is it true? We will find out in this hands-on review. For clarity; I was given a sample of Siraya Tech Fast Mecha for free before it was available to the general public.

    Reply
  13. Tomi Engdahl says:

    A new way to get rich (in USA)

    New York changes gun buyback after seller gets $21,000 for 3D-printed parts
    https://www.theguardian.com/us-news/2022/oct/11/new-york-gun-buyback-rules-3d-printed-parts

    Participant used a 3D printer to make firearm parts in bulk that he then exchanged for gift cards

    The attorney general of New York has changed the rules of a state gun buyback program, after a participant exploited the system by using a 3D printer to make firearm parts in bulk that he then exchanged for $21,000 in gift cards.

    The seller, who identified himself by a pseudonym, said he traveled from West Virginia to a gun buyback on 27 August in Utica, New York, to take advantage of a loophole in the program – and to demonstrate that buybacks are futile in an era of printable weapons.

    At the buyback, the seller turned in 60 printed auto sears, small devices that can convert firearms into fully automatic weapons. Under the rules of the buyback, hosted by the office of the attorney general, Letitia James, and city police, that entitled him to $350 for each of the printed parts, including a $100 premium, since they were deemed “ghost guns” lacking serial numbers.

    The seller, who declined to provide his real name, said in an email on Monday the prospect of making money was enticing, but that the big reason he took part in the buyback was to send a message.

    He called the idea of buybacks “ridiculously stupid”, adding that “the people running this event are horribly uneducated about guns, gun crime and the laws surrounding the regulation of guns”.

    Reply
  14. Tomi Engdahl says:

    Is There Finally a Machine That Can Turn Plastic Bottles Into 3D Printer Filament?
    Petamentor2 is an open source DIY machine that can transform old PET water bottles into 3D printer filament.
    https://www.hackster.io/news/is-there-finally-a-machine-that-can-turn-plastic-bottles-into-3d-printer-filament-1697840bc0d8

    Reply
  15. Tomi Engdahl says:

    Polyformer – Ideal Filament Recycler
    https://hackaday.io/project/185304-polyformer-ideal-filament-recycler

    The ideal machine for recycling plastic bottles into 3D printer filament.
    Team Members: Reiten (Yang) Cheng, Swaleh Owais

    Reply
  16. Tomi Engdahl says:

    The $300,000 3D Printed Car
    https://hackaday.com/2022/10/25/the-300000-3d-printed-car/

    We’ve noticed an uptick in cars–especially pricey ones–using 3D-printed parts. However, these are usually small and nonstructural parts with a few exceptions. This isn’t the case with the 2024 Cadillac Celestiq. The $300,000 luxury electric vehicle boasts 115 3D-printed parts, according to a post on [TheDrive].

    It appears part of the drive–no pun intended–is to allow ultra customizations for people who need more than a car that costs more than a quarter of a million dollars.

    The 2024 Cadillac Celestiq Has More 3D-Printed Parts Than Any Other Production Car
    The $300,000 Celestiq is nothing like Cadillac has built in a long time. As such, it uses advanced manufacturing techniques not seen in more plebian vehicles.
    https://www.thedrive.com/news/the-2024-cadillac-celestiq-has-more-3d-printed-parts-than-any-other-production-car

    Reply
  17. Tomi Engdahl says:

    3D Printing Gets Small In A Big Way
    https://hackaday.com/2022/10/26/3d-printing-gets-small-in-a-big-way/

    If you have a 3D printer in your workshop, you probably fret more about how to get bigger objects out of it. However, the University of Amsterdam has a new technique that allows for fast large-scale printing with sub-micron resolution. The technique is a hybrid of photolithography and stereolithography.

    One of the problems with printing with fine detail is that print times become very long. However, the new technique claims to have “acceptable production time.” Apparently, bioprinting applications are very much of interest to the technology’s first licensee. There is talk of printing, for example, a kidney scaffold in several hours or a full-sized heart scaffold in less than a day.

    UvA grants license on fast 3D-printing with sub-micrometre detail
    https://www.uva.nl/en/shared-content/subsites/van-t-hoff-institute-for-molecular-sciences/en/news/2022/10/uva-grants-license-on-fast-3d-printing-with-sub-micrometre-detail.html?origin=kUP%2Byx6UTZqvuJiCJKnnEQ&cb

    Applications in tissue scaffolds for artificial organs, and functional devices

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