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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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Women in Manufacturing Launching Oregon Chapter to Support, Promote & Inspire

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A local group of Women in Manufacturing are launching an Oregon chapter of WiM. As part of the national organization, WiM Oregon will support, promote and inspire women who are pursuing or considering careers in manufacturing.  We hope to encourage

the engagement of women who want to share perspectives, gain cutting-edge manufacturing information, improve leadership and communication skills, participate in sponsoring programs and network with industry peers.
— http://www.womeninmanufacturing.org/aboutmain/about

As someone who literally grew up in a family-owned production plant, I was surprised - and disappointed - to discover how few females were in manufacturing when I graduated in the early 80s and started my management career in food processing.  More shocking are recent statistics showing an erosion of the gains I witnessed then... A 2013 survey found the

women’s share of the manufacturing sector is currently just over 27 percent – the lowest level since 1971. This means that while women represent nearly half of the total U.S. labor force, they only constitute approximately a quarter of the U.S. manufacturing workforce.
— https://www.forbes.com/sites/forbeswomanfiles/.../the-rise-of-women-in-manufacturing/

According to SME, 

Women comprise only 11.1% of executive officers, 14.2% of board directors and 2% of CEOs.

These are statistics we hope to change.  If you or someone you know is interested in learning more, please contact me at reaton@rapidmade.com.

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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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Businesses Celebrate Holidays with Custom 3D Printed Gifts & Promotionals

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Businesses looking to create novel gifts and promotional giveaways are increasingly turning to 3D printing to customize - and maximize - their marketing efforts.  Consider these benefits:

  • Pens and magnets are boring and forgettable. Make a promotional giveaway your customer has never before seen.
  • Come to us with nothing but an idea for a promotional product, and we can take care of the rest.
  • Personalize your giveaways to the exact customer you are handing it to with custom messaging.
  • Many promotional products require expensive tooling and long lead times to accomplish - RapidMade can make your promotional products in a week or less.
  • Get your products in front of customers where it would otherwise be difficult or impossible.
  • Customize marketing materials with logos and designs.
  • Infinite customization to achieve the exact effects you desire.
  • Get concept models in front of customers early in the product development cycle to get feedback before spending too much money on the wrong track.
  • Get tangible products in your customers hands instead of a 2D computer image.
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Contact us to learn more.

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HP Announces New 3D Printing Materials for 4200 Jet Fusion Series

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RapidMade's HP Jet Fusion in action

RapidMade's HP Jet Fusion in action

RapidMade is pleased to share that HP is expanding material options for its Jet Fusion 3D printer.  Recognizing that material selection, performance, quality and cost have been barriers to additive manufacturing adoption, HP has focused aggressively on product development and accessibility.

Now, in addition to its 3D High Reusability PA 12, HP plans to offer:

  • 3D High Reusability PA 12 Glass Beads - designed to produce "stiff, low-cost, quality parts"
  • 3D High Reusability PA 11 - formulated to create "ductile, quality parts" at an unbeatable price

A key to its speed-to-market success has been HP's decision to encourage an Open Platform where key suppliers collaborate to accelerate material innovation.

RapidMade looks forward to including these revolutionary nylon powders in its operations.

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RapidMade Attends Operations & Technology Management Symposium

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Renee Eaton returned to the University of Portland's campus last week to attend its Operations & Technology Management Symposium.  Renee, a former management instructor at UP, always welcomes a chance to reconnect with faculty, students and fellow operations executives.

This year's event included Key Note Speaker Mike Malin, VP of IT Product & Merchandising Solutions at Nike, who explained his philosophy on managing technology given the acceleration of innovation. Other presenters included Vikas Sharma, an Intel Technology & Process Development Manager who talked about the trends and challenges surrounding Artificial Intelligence and Keith Burton, an Intel Director of IT Marketing Solutions, who described how his firm is using research, marketing and customer services to manage operations globally.

The annual symposium is always a great way to celebrate Manufacturing Month.

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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 Announces HP Multi Jet Fusion Services

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In honor of National Manufacturing Day 2017, RapidMade demonstrates commitment to continuously invest in technology, training and increase our knowledge of advanced manufacturing techniques.

October 5, 2017: RapidMade announced today it is offering services based on HP’s award- winning Multi Jet Fusion technology. Based in Portland, Oregon, RapidMade offers customers expertise on materials, engineering and manufacturing processes including advanced technologies like 3D printing. On the heels of its move into a larger facility to increase capacity for larger clients, the company is delivering on its promise to expand its capabilities and invest in new technology such as HP’s Jet Fusion 3D 4200 printing solution.

“With National Manufacturing Day coming up on Friday, October 6, it is worth reflecting on our goal when we founded RapidMade in 2011,” said Renee Eaton, RapidMade CEO. “We felt there was an opportunity to capitalize on the growing additive manufacturing market, sustainably localize manufacturing and do our part to employ and educate a new generation of manufacturing professionals. The addition of transformational technologies such as HP’s Multi Jet Fusion is at the forefront of our mission.”

“We share HP’s vision for the digital transformation of manufacturing, and as we look to help our clients compete in the digital age, we are so excited about the capabilities of HP Multi Jet Fusion,” added Eaton. “Whether our customers are looking for design support, prototyping or more complex projects, the quality, speed and cost savings enabled by the Jet Fusion 3D 4200 solution will deliver.”

The HP Jet Fusion 3D 4200 solution lowers the barriers of entry to additive manufacturing by providing faster build speeds, high-quality functional parts, and breakthrough economics. The HP Jet Fusion 3D 4200 machine operates through a unique Multi-Agent printing process, offering dimensional accuracy, fine aesthetics, and superior mechanical properties. Parts can currently be printed in High Reusability PA 12. Additional materials will be available as the largest chemical companies in the world develop certified materials for HP’s Open Materials Platform, providing customers with an ever-growing portfolio of materials for different applications.  

About RapidMade

Based in Portland, Oregon, RapidMade’s knowledge of materials, engineering and manufacturing processes extends to both traditional and advanced technologies. We like to design and build things, and we like to work with clients who feel the same way. We believe that our customers’ competitive advantage stems from their ability to create, produce and market better products. That’s why we focus on applying the latest materials, manufacturing and engineering technologies to the process of developing, prototyping, manufacturing, and marketing products. And we use this knowledge to help our clients apply the right solutions to their business needs. If you are looking to create a new product, improve an existing one, find a new manufacturing solution or want a partner who can help you take advantage of the latest digital and additive technologies then we can provide you with a range of services from a simple part or prototype to a complete analysis of your product or processing needs. It is this focus and passion, together with our ability to provide these services in a unique and cost effective way, that makes us different. 

Contact RapidMade to learn more:

To request a quote, submit a Quick Quote, or email RapidMade at info@rapidmade.com.

 

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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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There's a New HAAS in Town!

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Our new HAAS CNC machine is "sitting pretty" in our new location.

Our new HAAS CNC machine is "sitting pretty" in our new location.

The Tigard location is filling up quickly.  Both our HP Jet Fusion and HAAS CNC machines were delivered this week.  And they're being installed as this post is being written.  RapidMade is on track to move in and start up operations on August 1 as planned.  Help us fill up our new and existing equipment.

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Hometown Pittsburgh's High-Tech Make Over...

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Growing up in Pittsburgh, if you weren't directly connected to the Steel industry, you complained about the rotten egg smell and pollution.  But when the industrial giants went silent in the 70s and 80s, the complaints shifted dramatically to the economic tragedy that was unfolding - the flight of life-long residents and well-paying jobs.   Rhetoric from the recent election aside, Pittsburgh's manufacturing base is both alive and well...

The Pittsburgh Regional Alliance (PRA) recently reported that in 2016 the manufacturing sector accounted for the most investment dollars ($6.1 billion), the most deals (50 companies expanding or relocating), and the most new and retained jobs (3,667).

But as we've continued to see, the type and number of jobs that have been created don't resemble those of the steel-era in any way.

“Manufacturing is the most active sector in southwestern Pennsylvania,” explains PRA President David Ruppersberger. “But as technology and automation continue to transform this legacy sector, the reality is that manufacturing facilities will be smaller-footprint, high-efficiency environments where fewer workers, with advanced skills including STEM proficiency, will produce more goods. This is a trend that won’t reverse at any time in the foreseeable future.”

Hearing of Pittsburgh's adoption of additive manufacturing and other advanced technologies is encouraging if the resulting economic turnaround benefits the greater community.

 

Rapid Thermoformed Trays – Applying 3D and 2D Printing Technology to Create Unique Solutions

Rapid Thermoformed Trays – Applying 3D and 2D Printing Technology to Create Unique Solutions

A RapidMade White Paper

By: Marriah Pilcher

The cost advantages and creative applications of thermoforming, or vacuum forming as it is also known, are accelerating its use in multiple industries including manufacturing and medicine.  Recently, in a new study on medical trays, they found that thermoforming customized trays for procedures cut prep and operation times by 59% and lowered expenses. Having these customized trays better organizes procedures and improves medical staff utilization.

These unique trays are being adopted by various industries including manufacturing, medical, aerospace and other fields. Thermoforming customizable trays to fit tools, parts and equipment better organizes production runs, maintenance activities, and operational procedures thereby significantly:

  • cutting work times
  • reducing space requirements
  • improving inventory control and tool transportation
  • improving safety and sanitation conditions

Conveniently keeping all the tools and parts needed, organized, compact and ready to go, enables employees to quickly check items in and out and ensure they have everything they need before reporting to the work site.

When this occurs the 5S in a LEAN workplace - sort, set in order, shine, standardize and sustain, can be met with ease.

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A new breed of additive manufacturer is combining 3D printing technology with vacuum or thermoforming to create solutions for these 5S challenges in a cost-effective way. RapidMade will offer these custom trays in quantities up to 5,000 with MOQ (minimum order quantities) of 50, turnaround times from quote to 1st article of less than 10 days and the option to provide recurring small quantity batches with no additional set up fees. Design Guidelines for the types of trays being offered are broad:

  • Forming Area Bed size of 20" x 18" with a deep draw of 11.5"
  • A wide plastic variety of plastics can be used including PETG, HIPS, ABS, PC, Acrylic, TPO as well as food-safe materials.
  • A range of plastic gauges from 0.020" to 0.250" thick are available

And custom forming for special components within the tray is achieved by following some simple rules:

  • Forming windows are 12" x 12" and 6" x 6" to reduce material consumption for smaller parts. 
  • Draft for Female molds is preferred to be 5 degrees or greater and for Male molds are preferred to be 8 degrees or greater.

This is a fast and low-cost way of creating these trays. The step-by-step process combines engineering, forming and additive manufacturing knowledge to create the solution. The dimensions of the tool are determined by 3D software modeling. Using additive manufacturing the tool can be produced directly from the 3D model at a fraction of the price and time compared to traditional steel or aluminum machining processes. This allows the entire process of selecting, designing and producing these trays to be completed in days rather than weeks without sacrificing customization.

 The 3D Printed tool on the left with the thermoformed tray using a heat resistant Stretch-able ink is on the right.

 The 3D Printed tool on the left with the thermoformed tray using a heat resistant Stretch-able ink is on the right.

Similarly, we found a company who is uniquely combining 2D pre-printed images and 3D printed tooling technology to create eye catching effects, highlight details or spot color text and components on trays and vacuum formed parts. In the above photo the thermoformed tray mirrors a wood-grain finish. This is achieved by using a stretch-able ink that is printed onto the plastic before it is formed. With this capability, the end customer can print colors, effects, text, and images. Printing before forming reverses the order of a traditional manufacturing process which helps lower cost and time to produce. This application has many potential uses in the manufacture of thermoformed trays and parts.

These examples show how a new breed of manufacturing companies are using additive, digital and traditional technologies to create unique, customized, on demand, small batch run solutions. If you have dismissed vacuum thermoforming trays and parts as too expensive in the past, it might be time to take another look.

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Now Get Nylon Parts Faster

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FASTER NYLON PARTS – A New Age for 3D Printing

A RAPIDMADE WHITE PAPER

By Mark Eaton

Getting parts on demand has been a manufacturer’s dream for many years. Since 2005, see M. Park, UNSW article, there have been cries from the 3D printing industry that additive technology would replace the need for injection mold tooling, that it would eliminate the need for machining, that casting would become obsolete. Finally, that dream is becoming a reality.

While there have been success stories such as the use of Stratasys Ultem for aerospace parts and selective laser sintering (SLS) nylon for automotive parts, until today, these components have all had restrictions on where and how they could be used. One of the biggest drivers for this has been the speed and the part cost.  Siemens, according to a recent article in Plastics Today, is using 3D printed fire, smoke and toxicity-compliant polymers to replace parts in trams, and they cite part availability as being the primary driver. The US Marines have recently experimented with printing replacement Humvee parts in the field. What all these examples have in common is they are limited in scope by the 3D printing technology restrictions. While the FDM process eliminates tooling, it is still 100x slower than injection molding or machining, and while SLS material prices have been reduced, they are still 10x more expensive than injection molding or nylon bar stock prices. So, the extent to which these older 3D processes can be deployed is still limited by cost and speed.

                                                                 Photo Credit: HP

                                                                 Photo Credit: HP

 

This is beginning to change. A new breed of additive manufacturers is arriving on the market who are focused on truly using 3D printing to create production parts at costs comparable to injection molding and machining prices. These “new age” additive manufacturing companies combine faster printing technology with engineering resources to convert and certify part performance. They have integrated quality systems to ensure material, process and part conformity. And they offer parts at competitive prices compared to injection molding or machining costs without the need for tooling, set-up costs or inventory carrying costs. An example of one company taking advantage of this new age in additive manufacturing is Daimler, cited in a recent Reuters report, who has announced it will start offering plastic replacement parts printed at local service centers from a library of 3D files.

Driver’s armrest is 3D-printed from FST-compliant thermoplastic resin.Picture credit: PlasticsToday.com

Driver’s armrest is 3D-printed from FST-compliant thermoplastic resin.Picture credit: PlasticsToday.com

 

As an executive board member in the additive manufacturing community, I recently got to profile one such Portland-based 3D printing company, RapidMade. After 6 years developing prototyping, tooling and engineering services to support 3D printing, this company is reinventing itself to use the new breed of additive technology being offered by companies such as Hewlett Packard and Carbon 3D. These companies have developed much faster 3D printing technologies that use faster curing, less expensive materials with all the properties of traditional polymers. The new HP MJF is being showcased by RapidMade as part of its expansion in 2017. With speeds that are 10x faster than current SLS technology and material prices equivalent to injection molded nylon or machined bar stock, RapidMade can now offer its customers a wide range of new and replacement part solutions. Where precision tolerances are required, the company uses automated machining centers linked with the printers to provide finishing operations.

                                                                Photo Credit: HP

                                                                Photo Credit: HP

 

Without the need for tooling, customers can now order parts to print using their 3D library or one provided by the service provider. The shorter printing cycle times mean that it is no longer necessary to hold more than 1-2 days’ inventory for quick use parts, and less frequently used parts can be ordered as needed with zero inventory requirements. For very low order quantities (less than 10 parts), it has always generally been cheaper to 3D print versus using traditional manufacturing. With the lower cost breakeven point of these new age 3D printing technologies, minimum order quantities (MOQ) of 500 or 1,000 will be converted to printing versus injection molding or machining. For customers already using SLS technology, they will see an immediate cost and turnaround benefit from switching to this new breed of 3D printing technologies.

The benefit of these “new age” additive manufacturing companies like RapidMade is being immediately felt by the machinery manufacturers and end users of such equipment. There is a significant cost benefit in current supply chains, PWC Strategy& estimates there will be a 20% gain in TCO (total cost of ownership) from 3D printing replacement parts. It is estimated 70-80% of that can be delivered to the end users when they engage with a “new age” additive manufacturing company. Lower prices for spare and replacement parts are possible with piece of mind that the part has been certified for use. No longer are machinery manufacturers tied to traditional injection molders who retain tooling that cannot be easily moved. Parts produced offshore can now be re-shored without needing to recreate tooling. PWC Strategy& predicts German spare parts manufacturers will derive $3Bn in benefit from adopting 3D printing. Additive manufacturing by its nature is a non-labor intensive process, and the new breed of technologies produces 10x the number of parts in the same time lowering the overhead cost per part and making larger MOQ more attractive. Companies like RapidMade retain digital libraries and ship direct, on demand parts in quantities of 1 to 1,000 in less than 24 hours. They do this by not only having faster 3D printing technologies but also using automated transaction systems, integrated engineering and lean techniques to optimize printing uptime.

                                                                Photo Credit: PwC

                                                                Photo Credit: PwC

 

Whether it is Daimler, deciding to print plastic parts locally to save warehouse, shipping and logistics costs or Siemens citing the increased ability to service multiple customers with parts on demand, times are changing for the benefit of producers and end users. And to support the changing demands, these companies are turning to the ‘new age’ additive manufacturers who, in turn, are enabling US companies to re-shore production, improve turnaround time and lower part costs. If you have dismissed 3D printing in the past, it might be time to take another look.

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Patients May Get Lucky "Break" with 3D Printed Plates Thanks to FDA Approval

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My standard-issue wrist plate may soon be a thing of the past...

My standard-issue wrist plate may soon be a thing of the past...

When I shattered my wrist in 2014, the surgeon pieced together the fragments using a standard-issue, low-tech wrist plate and permanently screwed it into place.  Now, with the recent FDA approval of Additive Orthoapedics' 3D printed Locking Lattice Plating System, patients may soon have access to customized plates for "stabilization and fusion of fractures, osteotomies and arthrodesis of small bones."

‘We are excited to be one of the first companies to leverage the geometric flexibility, clinical advantages and manufacturing cost benefits of additive manufacturing in the orthopaedic plating market.  These plates can be implanted either alone with locking or non-locking screws, or in conjunction with our 3D printed bone segments through the use of a connection screw. This allows the surgeon to mix and match any wedge and plate combination for various deformities, complex revisions, or other limb salvage procedures,’ president Greg Kowalczyk said in a press release.

Since I have subsequently broken a foot and my other wrist, I will be sure to keep this company in mind, just in case.

 

 

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3D Printed Shoes - A Great Fit for Adidas

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Adidas' Futurecraft 4D (Reuters/Joe Penney)

Adidas' Futurecraft 4D (Reuters/Joe Penney)

It seems that 3D printed shoes are one step closer to reality.  This is a timely story for me as I just went shoe shopping this week...  Every time I need new tennis shoes, I go through the same routine:  choose from the limited selection of wide sizes and then, through process of elimination, find a pair that I can tolerate.  I speed walk, so the shoes have to be large enough to fit my feet but be snug enough to stay in place while I put them through their paces.  Based on this week's workout, the pair I just selected are not working out.  So I'm always interested in hearing about 3D printed shoes.

Adidas is apparently leading the pack pursuing a technology to allow mass produced custom shoes.  They announced a 

new partnership with Silicon Valley start-up Carbon (which) allows it to overcome many of those difficulties to produce a sole that can rival one made by an injection mould, and at a speed and price that allow for mass production.

The Futurecraft 4D shoe's introduction is planned for 2018 with the intention of offering shoe soles for individual fittings and limited editions.

The partnership with Carbon should allow Adidas to reduce the time it takes to produce shoes by additive manufacturing.  Its 3D printer design is reportedly 10 times faster than traditional 3D printer designs, printing soles in as little as 20 minutes.

 

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Engineering Design Transforms Ideas into Products and Makes Good Products Great

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To create or improve products, engineers rely on a number of proven approaches which include CAD Work, 3D Design, Industrial Design, Technical Analysis, Reverse Engineering, and Technical Documentation.  Learn more about how RapidMade can help.

Write here...

CAD Work

  • 3D print preparation
  • 2D to 3D conversions
  • Design for manufacturing conversions

    3D Design

    • Contract design work
    • Custom design
    • Product design
    • Conceptual design
    • Proof-of-concept design
    • Design for manufacturing

    Industrial Design

    • Aesthetics
    • Use-ability
    • Ergonomics
    • Anthropometrics
    • Research

    Technical Analysis

    • Stress analysis
    • Motor/actuator sizing and selection

    Reverse Engineering

    • File Conversions
    • Existing part to 3D CAD
    • 3D scan to parametric CAD model

    Technical Documentation

    • Manufacturing drawings
    • Machine layouts

    Training

    • User manuals
    • On-site installation
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    Congratulations to Paper Packaging on Retirement After 53 Years in Business

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    Paper Packaging, Pittsburgh landmark, closes this week

    Paper Packaging, Pittsburgh landmark, closes this week

    This week, Paper Packaging closes after 53 years in business.  Why would RapidMade be marking this occasion you may ask?  Its founder, Dan Unico, who worked every day in 2D printing and box making, is the father/grandfather of three of RapidMade's owners.  

    Dan, who also turned 90 this month, will continue to work along with his wife Joan, 85,  and two sons Ken and Mark to dismantle, crate and ship equipment to new owners.  In the spring, they anticipate - finally - retiring.  Maybe...  

    Dan and Joan taught us that starting a business was - and is - a path to a better life. And we learned that lesson at an early age. As children, we would play in the factory, sometimes doing odd jobs until age and experience allowed us to "graduate" to working on the various print and die-cutting machines.  This was NOT additive manufacturing.  The work could be hard, dirty, and monotonous.

     It is a testament to Dan that his wife, three of his four children, one son-in-law and one of his grandchildren (so far) has chosen manufacturing as a career.  That is a legacy one can be proud of.  Happy Birthday and Happy Retirement!

    congratulations!

    congratulations!

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    Industrial Design Debuts at RapidMade

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    Stag Concept Sketch

    Stag Concept Sketch

    The popularity of Industrial Design, also known as Product Design, has accelerated due, in part, to a new wave of designers and advances in technology, materials, processes, and capabilities which has dramatically improved the design options available to clients. Working closely with Engineers, Industrial Designers are trained on function, aesthetics, ergonomics, anthropometrics, and manufacturing processes to provide you with the best “working” concepts from sketches, to renderings, to CAD models that create your final product.


    RapidMade recently expanded its capabilities by including Industrial Design into our Product Design Process. In doing so, this lets us help our clients move from product conceptualization to launch much faster and more efficiently with better end results.

    3D CAD Model of Stag

    3D CAD Model of Stag


    When clients first come to RapidMade, sometimes they have a complete design ready to be made, but often they only have an idea of what they want. Introducing our new Industrial Design capabilities is a critical step toward helping the customers make their vision a reality. 
    Once a client completes a Quick Quote, we will arrange a meeting with our team of engineers and designers to discuss your concept. Our Industrial Designer then works with you to create multiple rough 2D sketches for the conceptual form that evolves into a final realistic 2D rendering (that you may keep). When you choose a final form, we add additional aesthetics. These can be anything from color, to contour lines, or personal brands and logos to get your finalized look. Our engineers then take this design you and our Industrial Designer created and make a CAD model with your specific dimensions, which is used to 3D print a prototype. We work with you on any additional iterations and source the final manufacturing for you. 
     

    Final Stag 3D Print

    Final Stag 3D Print

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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.