Category Archives: News
MIT Team Uses 3D Printing to Invent the Smarter Baby Spoon
A pair of MIT grads are looking to reinvent the baby spoon, and they are using 3D printing to perfect their design.
The product is called Spuni, and it is inspired by how babies eat. Why are today’s infant spoons just shrunk down versions of adult spoons? Nothing is adapted to the ergonomic needs of a child.
The Spuni team set off to create the perfect design, first creating prototypes in wood and later employing 3D printing to refine the shape and fabricate spoons that they could test on real babies.
Now the team is ready to scale up manufacturing for fulfillment to customers in April 2013. To do so, Spuni is looking to raise $35,000 on Indiegogo.
Here’s the opening pitch from the team’s Indiegogo page:
There comes a point in a baby’s life when he or she starts eating solid food. For parents, this means more cleaning. For a baby, a face full of food that needs to be wiped. This eating is messy. One reason? Most baby spoons are smaller versions of adult spoons, and they are not ergonomically engineered to help a baby transition to solids.
Spuni is not just a small spoon. Spuni’s unique “tulip” profile is designed to trigger the instinctive latching reaction that babies develop during breast and bottle feeding. It allows a baby to suck food off the spoon with less spillover, making each meal a more pleasurable experience for all.
Although the original prototypes were created using 3D printing, the Spuni team expects to manufacture spoons that are in accordance with best practices for baby products.
The mass produced spoons will be made through a three-step injection-mold process. The rigid inner structure is made from colored Thermoplastic Elastomer (TPE) with a softer over-molded transparent TPE outer material. These materials are dishwasher safe, non-toxic and Phthalate (BPA & BPS) and PVC free. We believe that Spuni will offer the best spoon for babies when it comes to contemporary material selection, safety and tactile experience.
And watch their full video here:
Top 3D Printing Stocks Up 10%, Combined Market Cap Now Over $5 Billion
Shares of leading 3D printing public companies are up over the last 3 months. 3D Systems (NYSE:DDD) is up 19%, Proto Labs (NYSE:PRLB) is up 12% and Stratasys (NASDAQ:SSYS) is up 2%. The combined market cap of those 3 companies is now over $5 billion.
Compare the performance of these 3D printing stocks (up 9.5%) to the slight decline of the Dow Jones, S&P 500, and NASAQ indices. Even though 3D printing is currently at the top of the “hype cycle“, it looks like investors are being rewarded for their early support of the industry.
In this video, Motley Fool analyst Blake Bos discusses some of the key recent events for 3D Systems and Stratasys:
- 3D Systems fought allegations over accounting irregularity
- 3D Systems sued Form Labs on patent infringement
- Stratasys released 16 new non-metal materials
- Stratasys announced a new Objet 3D printer
Top 3D Printing Headlines Last Week: Black Friday, Portraits, M&A
A roundup of the top news On 3D Printing brought you from November 21 to November 25.
Wednesday, November 21
Friday, November 23
Saturday, November 24
Sunday, November 25
Paper-Based 3D Printing, Now in Color and Photo Realistic
3D printers today are capable of creating objects in a variety of materials, from sandstone to plastic to gold. Ireland-based Mcor Technologies has a 3D printer that prints on, wait for it, normal old copy paper.
Their innovation is that the printer glues each sheet of paper together, and only prints the visible part of the model per page.
Mcor has announced a new printer called IRIS that can create photo-realistic objects in full color.
Introducing the Mcor IRIS, the worlds first high resolution full 3D color 3D Printer. The Mcor IRIS joins Mcor’s family of paper 3D printers and the vision of producing high quality, low cost and eco-friendly 3D prints.
Now Mcor is taking their technology to the next level with a full color 3D printer using regular letter paper and specially developed Mcor inks.
The Mcor IRIS produces sharp vibrant prints; printing on to a pure white media produces better color authenticity and reproduction when compared with other color 3D technologies. The Iris prints photo-realistic 3D parts with the resolution you would expect from a high quality 2D color printer
The IRIS will open up a world of opportunity to engineering, education, AEC, GIS and entertainment. “Now full color 3D printing will be accessible to everyone with full 3D color needs”, said Dr MacCormack.
Watch the video below to see the IRIS in action.
Is 3D Printing Like 2D Printing? A Veteran Says Yes on TechCrunch
In October, we published a critique of an article by TechCrunch contributor Jon Evans that disparaged the future of 3D printing.
In the early 1980s, Bill Gates was widely known to say “640K is more memory than anyone will ever need on a computer.” This famous quote seems laughable today as your standard home computer, tablet and phone are equipped with gigabytes of memory.
Well, today TechCrunch writer Jon Evans makes a similarly myopic claim about the 3D printer market, “There is no reason for any individual to have a 3D printer in their home.” We are sure Evans would love being compared to Gates, but let’s look more closely at his argument.
While we agree with Evans’ two predictions about online providers and tech shops, we do not agree with his assertion that there won’t be 3D printers in the home. Look at other markets: personal computers, inkjet or laser printers, photo printers, etc. In each of these cases, this technology started out expensive and niche, but eventually moved into the mainstream and enabled new industries to blossom.
Well, we’re not alone. 3D printing enthusiast and sales veteran John Hauer published a guest post “counter rant” on TechCrunch, where he sheds light on the subject from his perspective of 20+ years in 2D printing.
As far as history goes, 2D digital printing didn’t develop overnight. At first it was painful and expensive. File formats were incompatible, the devices were slow, quality was suspect, substrates were limited, and finishing was manual. Like 2D, as 3D printing matures, file issues will be resolved, speed and quality will improve, substrate options will expand, and finishing will become automated. Breakeven run lengths between digital and traditional processes will rise. At some point the “printers triangle” will be better optimized – you will be able to get quality, turnaround, and price, simultaneously.
Will it ever be as cheap to print 100,000 toys as it is to die-cast or injection-mold them? Probably not, but cost is not the only motivator for people’s buying decisions. Just as with 2D digital printing, people also buy based on the ability to customize or personalize — or because it is more convenient — even when the price is higher than that of a generic item produced in bulk.
In a previous article, Jon made the point that “communal 3D printer shops” will serve the majority of future needs. He forecasts that in high-infrastructure areas, web-to-print providers like Stratasys will supply consumers and that in low-infrastructure areas, people will use local printing facilities. Beyond the desktop, this is how 2D consumers are being served today, though I don’t think it’s as much about infrastructure as it is a matter of convenience. There are times when it makes more sense for me to order print online, pay a bit less and wait for delivery, and other times when I order locally, pay a bit more, and pick the product up.
This level of infrastructure to me is the most important point and why 3D is like 2D printing. Web-to-print solutions exist for both platforms, allowing consumers to enter specifications, upload files, and check out. Days later, the product arrives. What hasn’t been developed yet is the retail side of 3D print. Those who say it’s not print, but rather “additive manufacturing” believe it should fall squarely in the purview of machine shops, injection molders, and the like. The problem is, those businesses are not geared toward consumers. They don’t have retail locations, they don’t market to consumers, and they typically don’t have the business model or point-of-purchase systems to deal with small consumer transactions.
Who does have that kind of infrastructure? Traditional printers, office supply stores, and shipping giants like FedEx (Kinko’s) and UPS (Mail Boxes etc.). They receive files from clients every day (different, I know), offer several printing methods (black and white, color, large format) and multiple finishing methods (trimming, binding, lamination). They are located in retail areas, are used to dealing with and educating consumers, and have the ability to handle and process a lot of small orders.
2D print shops also relatively standardized and well-networked, allowing them to effectively sell the “distribute-then-print” concept. Need copies of a presentation in Altanta? Why print it in Ohio and carry it when you can print it there. How long do you imagine it will be until we’re distributing then printing objects in the same manner? Seems like a pretty clear case of history repeating itself to me.
Thanks John, for sharing your point of view!
This Print Shop photo by tombothetominator used under Creative Commons license.
