Rapid Prototyping

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NAS Pax River Event Features Mobile 3D Printing to Promote STEAM

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NAWCAD's FabLab will be open to visitors at Technology and Arts Expo (DCmilitary.com - photo credit)

NAWCAD's FabLab will be open to visitors at Technology and Arts Expo (DCmilitary.com - photo credit)

We were living in Maryland just when interest in 3D printing was being fueled by technological breakthroughs and extensive media hype.  A consortium of additive manufacturing advocates there preached its potential to accelerate business development if educators insured a ready and willing workforce.  One locale heeding its message is Southern Maryland, home to the Naval Air Station (NAS) Patuxent River.  To promote interest in STEM, NAS Pax River volunteers will host an event this Saturday at the Technology and Arts Expo at the Patuxent River Naval Air Museum.

A featured attraction will be NAWCAD's FabLab:

a place where makers can take their ideas from concept to prototype for projects involving rapid prototyping, accelerated modeling and collaborative learning opportunities.
— http://www.dcmilitary.com/tester/news/local/pax-volunteers-to-exhibit-lend-a-hand-at-naval-air/article_45b72b1d-984d-544d-a7f2-5fadbd0a9f18.html

The FabLab houses 3D printers, CNC mills and laser cutters and other prototyping equipment.

This region, nestled between the Potomac and Patuxent, is often better known for its access to the Chesapeake Bay than advanced technology - despite the expansive naval base.  Hopefully these enthusiastic advocates will change that perception - almost makes me miss Maryland. 

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HP Jet Fusion Delivers Injection Mold Quality without the Mold

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3D printed part

3D printed part

Mold no more!  For small and medium-batch production runs, slash cut part cost and accelerate delivery speed with HP Jet Fusion:

  • No tooling costs
  • Limitless iterations
  • Design freedom
  • Lower engineering costs
  • Collapsed delivery timelines
  • Production-quality parts

Contact us for a quote.

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RapidMade Helps Firms Complete Year-End Project in Days, Not Months...

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Every holiday season, purchasing agents and design engineers everywhere feel pressure to complete capital projects before they can celebrate the New Year.  Who wants to forfeit hard-earned budget allocations because time constraints prevent delivery before the 2018 count down?  Make your holidays happy instead.

Thanks to Additive Manufacturing (3D printing), year-end projects can be completed in days, not months.  Services include:

  • Rapid Prototyping
  • 3D Scanning
  • Production Parts
  • Thermoformed Products
  • Reverse Engineering 
  • Industrial Patterns
  • Printed and Machined Tooling
  • Custom Displays, Exhibits and Promotions
  • Engineering Design

Additive Manufacturing benefits:

  • Short lead times
  • No tooling costs
  • High customization
  • Small-batch production
  • Eliminated design limitations
  • Pre-built assemblies
  • Reduced structural weight

 

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RapidMade Brings Goodnuss to Founder and Other Entrepreneurs

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One of the most enjoyable aspects of working with entrepreneurs is seeing them – and their projects – come to fruition, orin Lizz Hampton’s case – to nutrition!  Lizz is one of our favorite success stories, especially given that she is among RapidMade’s first customers, dating back to its first year in business.

Lizz came to us with a product idea that would make it easier for people to make fresh nut milk at home. The product concept itself was very simple, however the design requirements were very complex.

Over the course of the past 4 years, we have worked with Lizz to simplify this revolutionary product through hundreds of prototype iterations, helping her streamline from more than 15 complex parts down to 4 simple parts and then supporting her pivot away from a device into a reusable, mess-free nut milk bag.

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I wouldn’t have been able to get this far without Micah and his team at RapidMade. Not only did they help me develop a better product, they provided essential insight into how it would need to be manufactured, important engineering considerations and top quality parts for my prototypes. Above all else, they have been there to support me on my journey and believe in the product I am creating, which is invaluable to me as a young maker/designer.
— Lizz Hampton, Goodnuss Founder
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As of October 17th, Lizz’s reusable, mess-free nut milk bag is available for pre-order on Indiegogo. We are helping her spread the word about her launch because we believe in supporting our customers and doing our part to help them succeed.  If you are interested in supporting Lizz and helping her get her product manufactured, please click this link

You can also check out her website, which is full of funny videos.

If you are not a nut milk drinker, we’re sure you know someone who is and would love this product!  If you are not able to support her campaign financially, please share with your network so she can build her dream company.

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At RapidMade, we believe in helping our customers achieve their goals, whether it’s developing or producing a product for commercial use, creating a prototype for an entrepreneurial project or making displays for retail spaces, we are dedicated to helping our customers succeed with superior products.

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RapidMade Clients Named PBJ Small Business & Innovation Award Winners

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Congratulations to Innovarai and Madorra Medical who are among Portland Business Journal's 2017 Small Business & Innovation awardees!  Their achievements will be recognized and their products showcased on November 1st from 5:30 p.m. - 7:30 p.m. at the Portland Hilton Hotel.

Rapid prototyping and low-volume production, made possible through 3D printing (additive manufacturing), are lowering the barriers to entry for entrepreneurs and start ups.  These advanced manufacturing technologies lower costs, reduce lead times, and optimize designs, making product launches more affordable and timely.

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When to Choose Injection Molding or 3D Printing

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RapidMade Accelerates Pace and Elevates Quality of Product Launch

Injection Molding Case Study

3D Printing, or Rapid Prototyping as it is also known, is a much faster and cost effective solution for testing and perfecting digital designs. Its ability to fabricate parts overnight without any direct labor, programming or tooling means 3D printing technologies carry many advantages over traditional technologies like injection molding for short turns and small-batch production.

 Sometimes 3D printing only goes so far when developing and manufacturing products in their early stages. In those instances, Rapid Injection Molding can take products to the finish line.

An American-made LED light bulb manufacturer engineered a version that was bigger and brighter than its competition.  The company quickly learned that RapidMade's injection molding expertise could test, validate and even manufacture its light bulbs in ways that 3D Printing simply could not match.

RapidMade accelerates the typical injection molding process by providing a short cut between prototyping and production tooling. After the rapid prototyping client finalizes its product for injection molding, RapidMade creates a cheaper and better solution by making pre-final tooling out of aluminum. This option allows customers get to market sooner than other injection mold processes and helps gain customer feedback to improve products. Getting a product to market sooner generates more revenue to invest in further product development and long-term tooling. 

 Material

Since the customer didn't know what the final material of the bulb should be, cutting the mold and testing multiple materials, including different grades of ABS and Polycarbonate, helped pinpoint the final material and even helped estimate eventual mass manufacturing costs. Additionally, electronics products must go through rigorous UL testing to ensure consumer safety before the product can be sold in stores.

Color and clarity are other traits vital to the lighting industry.  Because 3D printers must run manufacturing-grade material that is unadulterated, optimizing these characteristics can be difficult. With injection molding, however, one can custom blend different clear and opaque pigments with clear plastic to prototype different levels of clarity and color. So the company could test very specific color profiles to perfect its formula in the final product.

 Finish

Finish is extremely important when working with lighting, as well as other consumer products. A matte finish diffuses light at a very different rate than a polished one. Due to the layered nature, inherent in the 3D printing process, even the highest detail machines will have some level of surface striation. Additionally, most filament or powder technologies will have a very rough finish beyond the layer lines. Achieving custom finishes requires polishing, sanding, and painting of each individual unit, making it is extremely labor intensive and expensive.

Alternatively, injection molding shoots molten plastic into a cavity which picks up the texture of that cavity. That means one only needs to finish a mold once to get repetitive shots of that finish. And molds can be polished and textured to prototype a variety of finishes before settling on the desired one.

Volume

A light bulb is a relatively low-cost consumer good. These goods are meant to be sold in large volume at low cost. Tooling to produce those volumes inexpensively enough can take months to make and require high upfront investment. Many businesses are interested in small and medium-batch options that are more cost effective and higher quality than 3D printing to excite investors, test markets and stoke demand. 

 The company secured a prototyping option with relatively little upfront investment that served as a bridge tool to get actual product out into the marketplace. Aside from the aforementioned quality concerns, this could not have been cost effectively achieved with 3D printing; one cannot sell a light bulb where the housings cost $38 to the manufacturer. Creating large volumes of parts on a 3D Printer can also take much longer than injection molding, making it harder to fill orders. Injection Molding can really provide exceptional value to early-stage manufacturers when producing runs of hundreds or thousands of parts for low cost very quickly.

 

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OMDOG Performance Canine Headgear Lets Your Dog Ride Safely in Style

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RapidMade gets to work on many cool new product ideas.  Given our love of dogs - we have a dog-friendly workplace, this project has been a favorite...

"OMDOG performance canine headgear started as a simple idea — to build a custom helmet for Charlie the Dog, who rides around Portland, Oregon in a cargo bicycle. When the decision was made to duplicate and improve the design, we contacted Rapid Made. They were responsive and excited about the project. They quickly 3D scanned our prototype, reverse engineered it, and made it easy for us to review and approve the CAD model before printing. Rapid Made helped us take an idea that started as a cardboard model made from a pizza box turn it into a viable product design. They're providing us with manufacturing options within our budget and well suited for our target market. We are extraordinarily grateful to have found Rapid Made!"

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Laika Debuts First Fully 3D Printed Puppet in "Kubo and the Two Strings."

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3D Printed Moon Beast and other characters.  Image Credit:  Inverse.com

3D Printed Moon Beast and other characters.  Image Credit:  Inverse.com

Next week, our Portland neighbor, Laika, premiers its newest project, "Kubo and the Two Strings." The animated film features its first fully 3D printed puppet, the Moon Beast. According to 3D Printing Industry, the character's physical requirements - and 130 separate pieces - demanded a different approach...

Comprised of a series of 3D-printed shells that bolt over a centralized gooseneck armature, the Moon Beast was a unique undertaking on the part of LAIKA’s Rapid Prototyping department. Ordinarily they look after just the faces and heads of the characters, while the puppet department handles the rest. For the Moon Beast, though, separating the body from the head wasn’t really an option.

The film, which took 94 weeks and 70 rapid prototyping specialists to complete, shows in theaters on August 19.

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RapidMade Featured in U.S. News Article on 3D Printing

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RapidMade's founders were recently interviewed by U.S. News and World for an article explaining how 3D printing, also known as additive manufacturing, has helped entrepreneurs innovate.

Here's an excerpt from the story which was published on line this week:

Renee and Mark Eaton, with their son Micah Chaban, founded RapidMade, a 3-D printing, manufacturing and engineering company, based in Portland, Oregon, in 2011. About to graduate from the University of Oregon, Chaban told his parents he was contemplating job searching in Germany. Living in England at the time, the Eatons had read an article in “The Economist” on 3-D printing and the idea for RapidMade was born.

’We had both worked in manufacturing for years and were disheartened that so many kids were gravitating to lower-paying service jobs because high-tech manufacturing jobs either weren’t well known or readily available,’ Renee Eaton, chief executive officer of RapidMade, wrote in an email.

’During our careers, we had both been forced to close or downsize plants and relocate production, so we wanted very much to bring back manufacturing. We thought Additive Manufacturing (3D printing) was a great local and sustainable way to do that.’

She explained that entrepreneurs can develop and evaluate a design in little time with rapid prototyping and that by using 3-D printing to create tools, they can decrease lead times and cost. Most of RapidMade’s customers are new to 3-D printing, and the company’s engineers can help determine the best technology to create a product from a design, she wrote.
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Shell Uses Rapid Prototyping to Improve Planning, Reduce Cost & Increase Safety of Deep Water Project

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Photo Credit: Shell/3Dprint.com

Photo Credit: Shell/3Dprint.com

2D engineering drawings fail to capture the minds and hearts of lay people.  I remember Nabisco engineers willingly sharing their blue prints with production employees to coax their input and buy in to equipment designs and line lay outs.  These machines and lines can cost millions of dollars, so there's a real need to "get it right the first time."   Invariably there would often be miscommunication and frustration when both parties thought they were getting what they needed only to discover when the equipment was delivered and the line was installed that they had missed the mark - sometimes quite literally.  One time, the operator was on one side of the line and the controls were on the other!

Now, 3D printing and rapid prototyping allow stakeholders to physically see, touch and manipulate what is being proposed.  They can more easily assess what will work and what won't, saving time, money and aggravation.

In one such situation, Shell Oil recently produced a prototype that allowed the firm to design and construct an elaborate buoy.  As one executive explained

that for the offshore crews in particular there are challenges due to the high cost of installation. Patterson also says that their crews in ‘the Americas’ have been exploring 3D printing for prototyping. Upon working in the Stones project in the Gulf of Mexico—about 200 miles southwest of New Orleans—engineers were faced with how to put together enormous blocks of syntactic foam into a buoy that would need to disconnect to an FPSO (Floating Production Storage and Offloading) vessel area at what is going to go down in history as the world’s deepest water installation at 2,900m of water.

Can you imagine hauling something that large, expensive and complex out to sea only to discover it didn't work as engineered?  This is a great example of why rapid prototyping was one of the earliest applications of 3D printing technology.

If you are interested in learning more about how rapid prototyping can improve your next project, please contact RapidMade.  

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Stop Waiting and Paying for Expensive Tooling to Test Your Rubber Products.

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Decrease R&D cycles and save money by direct 3D printing with RapidMade.

How do you prototype or fabricate small batches of rubber, urethane or other elastomers products when?

Soft elastomers won't machine.

Fabrication by sheet lamination and gluing is inaccurate, weak and ugly.

Injection molding and other casting methods can take weeks to months and require expensive tooling.

Instead, 3D print your next rubber product design. RapidMade has successfully manufactured hundreds of gaskets, connectors, covers, plugs and other rubber products for a myriad of industries.

Advantages of using RapidMade for prototype and small-batch rubber product fabrication includes:

Fast turn around - Printed rubber products delivered in as little as 2 - 3 days.

Inexpensive low volume production - 3D printing has no tooling. Order as few as one part on short notice.

Multiple material options - Our 3D printed Thermoplastic Urethane rubber comes in shore 40 and 70 A durometers and a wide range of colors. Find our more about our SLS TPE material.

Multi-material prints - Using our polyjet technology, embed gaskets and other rubber materials directly inside of a rigid plastic assembly. Mix plastics to get over 100 digital materials ranging from shore 20A to 85D hardness.

During and After Prototyping - RapidMade offers expert engineering and design services as well as competitively priced urethane casting and injection molding options for larger volume production.

Fill out our Quick Quote form to get your inquiry started today!

 

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Injection Molding Made Easy

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Injection molds shouldn't take months to get...

  • Production Quotes in 1 - 3 Business Days. Tooling and Samples in 5 Weeks or Less.
  • Design, Engineer, Prototype and Manufacture All in One Place.
  • Full Expedited Production Orders in 4 Weeks or Less.
  • Get the Best Price and Quality Plastic Parts With RapidMade.

RapidMade Advantages Include:

  • Design and production for embedded stock and custom components including: Circuit boards, lights, mechanical components, clear windows and magnifiers, locks, springs, fasteners, and much more.
  • Extensive experience prototyping and testing precise mechanical assemblies.
  • In house assembly for complicated projects.
  • One stop design, prototyping and manufacture limits exposure to risk between suppliers.
  • Streamlined development brings your product to market faster.
  • Iterative testing with customer approval every step of the way ensures you get the product you envisioned.
  • Hundreds of available mold finishes and textures.
  • Wide range of standard plastics options including ABS, Polycarbonate, Nylon, Polyethylene, Polypropylene and composites. Custom plastics available on request.
  • Over 70 years of engineering and manufacturing experience will exceed your expectations.
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Just a Reminder, PSU's Business Accelerator's Company Showcase is Tonight

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Come see RapidMade at PSU's Business Accelerator Company 11th Annual Showcase.  We are officially graduating from the program tonight, Monday, May 18 at 5:15!

Here's the agenda:

Doors at 4pm
Pitch group 1:  4:30pm
Pitch Group 2 & Company Awards: 5:15pm
Pitch Group 3: 6:00pm

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Digital Life Goes Live with Microsoft's HoloLens

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During its recent Windows 10 Conference, Microsoft showcased its HoloLens prototype.  According to one attendee, PC Magazine's Dan Costa, 

HoloLens is (an) augmented-reality headset that allows you to mix the virtual world with the real world. Put on the headset and the glass screen can project a digital overlay on top of the physical world. It can be as simple as a Skype window or as complex as a 3D model of a jet engine.

While I think the technology is phenomenal, HoloLens' ability to create 3D models using its companion 3D modeling program, HoloStudio, excites me the most. Costa witnessed a Microsoft engineer create a koala equipped with a rocket pack.  And I mean witnessed; he could actually watch what the designer was seeing - and creating - on HDTVs stationed nearby.  Reportedly, the engineer "walked around the hologram, grabbing tools from a holographic control panel, and then used a combination of voice and gestures to build and shape the koala."  

And it didn't stop there... dozens of 3D prints designed using HoloStudio and then manufactured on a 3D printer were on display.

Other product capabilities include interactive holographic gaming and Skype - which allowed the other party to see and interface with what the caller was viewing - imagine Technical Support walking, not talking, you through a fix.  The press corp even got a bonus "out-of-this world" experience when the HoloLens 'transported' them to Mars - where they were able to roam the landscape accompanied by a virtual tour guide.

Imagine the possibilities.  Design could be truly interactive and collaborate.  And dare I say possible for even the less tech savvy among us.  

 

 

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RapidMade Helps Bring Spider Dress to Life

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Video Credit: Vimeo.com

At my age, I'm well past needing to fend off unwanted advances - especially using high-tech fashion - but there have been times when the revolutionary Spider Dress would have let me better navigate congested streets.  For the past few months, RapidMade has been helping the creative geniuses responsible for the Spider Dress bring it to life... 

Dutch designer Anouk Wipprecht envisioned a creation that would rely on embedded sensors to respond to its owner and her surroundings to provoke a defensive response from the 3D printed dress.  It can detect one's stress levels as well as the proximity and approaching speed of others from as far away as 22 feet.

"'I was keen on re-creating communicative aspects of animal behavior,' Wipprecht tells Co.Design in an email. To do this, she created a garment that reflexively defends itself: If you enter the wearer’s personal space aggressively, the dress attacks. Animatronic arachnid limbs attached to its shoulders lash out at intruders. But if you approach calmly and slowly, these limbs might beckon you forward. 'It almost dances with you,' Wipprecht says."

It has been a thrill for RapidMade to play a role in this project which has included:

"Austrian engineer and roboticist Daniel Schatzmayr. This past winter, she worked with technology company Intel to upgrade the design, using their new microcomputer, Intel Edison. It was test-printed in collaboration with 3-D printing companies Materialise and Autodesk, and the final product was manufactured with Rapid Made, a local 3-D printing company in Oregon. 'They helped me create a perfect white-pearl finish, which I was never able to reach on my prior designs,' Wipprecht says (the prototype was in black). Now, the dress is entirely 3-D printed and mechatronic, with extra-sensitive proximity and stress sensors."

This isn't Wipprecht's first 3D printing venture.  Check out other projects: 

  • the Intimacy dress, which becomes transparent when electrified
  • the Smoke dress, which emits clouds of smoke
  • the DareDroid 2.0, which "makes fresh cocktails for its wearer."
  • a dress that can produce 500,000 volts of electricity.  Fortunately, a built-in Faraday cage, protects the wearer from being electrocuted. 

The Spider Dress will debut at the Consumer Electronics Show in Las Vegas from January 6 to January 9, 2015, where it is being showcased for Intel.

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Selective Inhibition Sintering Seen as Affordable Metal Printing Technology

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Wrench printed by SIS (Photo Credit:  3DPrint.com)

Many consider the affordable 3D printing of metal to be a breakthrough that would allow greater adoption of additive manufacturing for end-use parts.  According to 3Dprint.com, researchers at the University of Southern California are working on a novel approach to that end:  Selective Inhibition Sintering (SIS) which inhibits powder from melting, instead using it a mold:

"Using this new technique, a machine first lays down a layer of metal powder on a print bed. At this point a commercial piezoelectric printhead deposits a liquid solution which acts an an inhibitor, preventing the metal that it is sprayed upon from melting once it’s heated. The printhead, which is similar to that found in an inkjet printer, only sprays in an area which represents the boundary of the actual print. Where this solution is sprayed, the metal clumps together and hardens.  Layer by layer, more metal powder is deposited, and more of the inhibiting agent is sprayed onto the print bed. The boundary of the object slowly is built up, with metal powder inside.  It basically becomes a mold filled with pristine metal powder. When complete the entire print is then melted at a high temperature, leaving behind a solid object encased inside the inhibitor shell, which is then easily removed."

SIS is being touted as an affordable alternative to other metal printing processes because:

  • It relies on printhead technology which is seen as cheaper
  • It builds only the boundary of an object and is therefore faster.
  • Unused powder can still be reclaimed since the inhibitor is made from sucrose which can be dissolved in water.

While not yet perfected - part shrinkage and inhibitor application problems have occurred - researchers are encouraged by their preliminary results. 

 

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Skill Gap Recognized as Challenge to Additive Manufacturing

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BY THE NUMBERS

17.4 million: Jobs supported by manufacturing in the United States

12: The percentage of manufacturing in the nation's GDP

$77,000: The average salary of manufacturing workers

$60,000: The average salary of entry-level manufacturing engineers

17: The percent of Americans who view manufacturing as a viable career choice

Source: National Institute of Standards and Technology, courtesy of Orange Count Register

My parents and brothers own a small box-making plant in Pittsburgh. When I was young, we would play in the scrap piles, sweep the floors, and do odd jobs to pass the time while our parents worked.  Because of this unique experience - and because Pittsburgh was a major steel producer - I knew that manufacturing was a good career choice - if you could get the work.  Unfortunately, it earned a bad reputation in the 70s, 80s, and 90s as more companies offshored and consolidated their production facilities.  I myself left the field to teach when I had to oversee Nabisco's Pittsburgh plant closing.

This experience is one reason I'm very excited about Additive Manufacturing (3D printing).  It uses advanced technology, requires high-skilled labor and conserves raw materials... things I hope will attract another generation of U.S. makers... but first, this generation will need to learn the skills required to design, scan and make 3D printed prototypes, parts, tools and models. Increasingly, schools, like some in Orange County, recognize the importance of ensuring enough workers have those skills.

According to Orange County Register reporter Tomoya Shamira, the Dean of the UC Irvine School of Engineering Dr. George Washington describes his students' experiences,

"Students at UCI receive training in a host of additive manufacturing technologies such as selective laser sintering and stereolithography."  

And this is fueling an interest in manufacturing... 

"CI engineering professor Marc Madou said 3D printing is helping young people become interested in manufacturing, partly because they can turn their design into a physical model quickly."

But not all jobs will require an engineering degree which highlights the need to partner with local community colleges as well...

"While advanced technologies are changing the manufacturing landscape, there’s growing demand for experienced welders and machinists as U.S. companies are bringing their manufacturing back home. Two-thirds of manufacturers said they couldn’t find qualified workers, according to a survey conducted by the Manufacturing Institute and Deloitte Consulting."

 

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Laika's "Boxtrolls" Features 3D Printed Puppets

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The Many Faces of Shoe (Photo Credit:  Laika)   

The Many Faces of Shoe (Photo Credit:  Laika)   

Portland-based Laika, recently released its third feature, The Boxtrolls.  What viewers may not realize is the stop-motion production studio, creator of Coraline and ParaNorman, relies heavily on 3D printing to create the puppet characters in its films.  To achieve this feat, Laika employs a rapid prototyping department that overseas the production of prints using color binder jetting technology.  As Brian McLean, director of the department,  described in an interview, this is often easier said than done.  Getting an outcome we are more familiar with than we'd like, he

likend the printing process to the rendering process in CG - sometimes you input code and something you didn’t quite expect comes out... And (to make oversight more complex) the printers aren’t necessarily consistent from print to print.

As a result, achieving the desired color and appearance requires some experimentation and a lot of expertise.  In fact, the article mentioned that Laika has developed so much industry knowledge about material and printer performance, it is sometimes contacted by the manufacturer for advice.  In between takes of course...

 

 

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Paper Mache Goes High Tech... Paper-Based 3D Printing

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Paper-printed orange (Image Credit:  Mcor and Inside3DP.com

Paper-printed orange (Image Credit:  Mcor and Inside3DP.com

I once spent weeks in middle school art class attempting to paper mache a Christmas tree.. I wish I had had a cleaner, life-like outcome.  Now imagine paper mache without the mess and fuss -  a less known additive manufacturing technology, selective deposition lamination, involves gluing together colored office paper sheets to produce an object.  Mcor Technologies sells its version, the IRIS paper-based 3D printer which is seen as an eco-friendly alternative to other materials.  And more colorful.  Inside3DP.com reported, "Because the printer’s ‘ink’ is paper, it can be printed in every color imaginable using Mcor’s International Colour Consortium of over 1 million color shades. This gives the IRIS a major lead over standard desktop 3D printers that print in plastic filament which usually comes in a very limited selection of colors."

And as the above image shows, the results are pretty realistic.  In fact, one Mcor sales manager was reportedly ordered by airport security to check his paper-printed hammer prototype because it was too close for comfort.

Unfortunately for me, not only did the technology come too late, I suspect my art teacher would have failed me for "copying."

 

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Promote Your Business with Custom Marketing.

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Business card holders & promotional items incorporate company logos and industry themes, all in full-color 3D

Business card holders & promotional items incorporate company logos and industry themes, all in full-color 3D

Full-Color 3D Printing (ZPrinter 650)

  • Turn your BIM and CAD models into tangible marketing materials.
  • Create colorful models that catch the eye.
  • Show fine, hidden, or internal details of complex designs.
  • Produce inexpensive form/fit prototypes quickly.
  • Use for business presentations, technical training, art projects, architectural models, and many other applications...
  • Bring your favorite video game character to life.
  • Explain an operation to a patient with a replica of their tissue.
  • Print customized Christmas ornaments. 
  • Ask about our proprietary solutions that turn ZPrint parts into usable parts.
  • Learn more about full-color 3D printing

Build volume: 10 x 15 x 8 inches (larger with assembly).

Color: with almost 400,000 colors to choose from, why skimp?

Size: scale-down huge machines, buildings, artwork to hand-held or table-sized replicas

Logistics: avoid lugging heavy machinery to trade shows