This is an exciting development in the world of 3D printing for sure and will certainly cut costs and provide more productivity for auto makers as it moves into the mainstream. As this is the work of European researchers, do you think the U.S. would embrace this sort of thing, too?
I promise you that if 3D printers cost sub 200usd I would buy one and so would any one that can use the software. I just wish the price would get to that point faster. The manufacturers of these printers need to realize that selling the cartridges and printing materials will make them more money than the printers themselves. Sell the devices at cost and wait for the returns on the materials.
ervin0072002, I agree on that business model, at least for the low-end machines. But it will take time before volumes are high enough for that model to work. Meanwhile, the high-end machines, such as the one in this article, are an entirely different animal: they're more like a capital equipment purchase.
I'm amazed by this. Automakers have always used high-volume production techniques for a good reason -- the auto industry is all about high volume. That's why engineers have always been willing to put up with the two- or four- or six-week timeframe that's required to build tooling. When the tooling is completed, they can build 400 or 500 parts an hour. Thousands of parts a day. I wonder what kind of parts Daimler plans to build with this technology?
Chuck, Daimler's original intent was to replace die-casting and sand-casting of big metal components and prototypes. Apparently, the consistency of material properties between parts made with casting methods wasn't high enough. Neither is the part size: Daimler also wants to increase it, while maintaining light weight, by using this printer. That second reason is a pretty classic one in 3D printing of functional production parts.
Charles' observation was the first thing that came to mind when I read this article's headline. However, even in mass production, the casting process is quite involved, requiring multiple steps. While the lost-foam casting has reduced the time considerably, the foam patterns themselves must be manufactured first, and then the sand poured around them to create the casting mold. When all the steps are added up, I wonder what the total time to cast a part is versus using rapid prototyping.
Another side benefit may be an environmental one - the sand used in metal casting usually absorbs toxic residue and must be treated before being disposed of. I do not know what is involved in this step, but do know that here in the North and South Carolina area, a company had to pay upwards of a half a billion dollars to clean up the waste sand that it unknowingly donated for projects around this region.
I am sure this is not priced for the hobbyist market. If one of these 1000R could be set up to print constantly for smaller projects, the individuals out there who need something made, could it be cost effective? Or is it just for printing high markup items, price intangibles.
Once litigation is over, Formlab's 20 micron printer may give this a run for its money, literally.
Cabe, thanks for the input. This is definitely a high-end machine, not a competitor with Formlabs. I doubt the 1000R would be useful or cost-efficient for renting out to multiple users: it's a capital equipment purchase. Generally, owners of, say, semi fab equipment systems don't rent those out, either, even if they could be kept constantly running, and even if they were experienced EMS houses like Flextronics. However, that might be possible after a few more generations of this 3D technology, and after the system itself had been redesigned to accommodate that targeted use.
Really, Ann? That's incredible...but I guess I should't be so surprised...there is a lot of investment in this technology these days. We've certainly come a long way form the days of the dot matrix!! (Sadly, I am old enough to remember!)
Elizabeth, I think one of the things that makes it hard to wrap one's head around what this technology does, and can do, is calling it "printing." That label was applied for perfectly good reasons--the use of inkjet technology for laying down the layers--but it's also become confusing to many. OTOH, when I saw the first 3D models being made back in the late 80s, it was like looking at sci-fi ideas come alive. And that sense of wonder remains.
Just read anuother article someplace else that alluded to the use of 3D printers for autos. In that case, they were using them to make one-off parts for classic cars where you could no longer obtain the original.
Jack, the main use for 3D technology in auto production began with making one-off parts for high-end racing and/or classic cars. That's where this technology has been proven out for automotive uses. The main issues now are figuring out how to make machines that can participate in the high-speed, high-volume production environment of mainstream car manufacturing. The links at the end of this article will tell you more.
Dow Chemical and several other companies have launched a program in Omaha, Neb. to divert about 36 tons of plastics from landfills in its first phase, and convert it into energy used for cement production.
A make-your-own Star Wars Sith Lightsaber hilt is heftier and better-looking than most others out there, according to its maker, Sean Charlesworth. You can 3D print it from free source files, and there's even a hardware kit available -- not free -- so you can build one just in time for Halloween.
Some next-generation bio-based materials are superior in performance to their petro-based counterparts, but also face some commercial challenges. This is especially true of certain biopolymers, adhesives, coatings, and advanced materials.
Cars and other vehicles, as well as electronics and medical devices, continue to lead the use cases for the new plastics products we've been seeing, as engineers design products for tougher environments.
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