RapidMade

RapidMade Develops Techniques to Strengthen 3D Printed Nylon Parts with Reinforced Fibers

Carbon-fiber-reinforced 3D Printed Nylon Part

Carbon-fiber-reinforced 3D Printed Nylon Part

RapidMade recently completed research on investigating a solution to produce custom agricultural parts from 3D printed nylon reinforced with fibers in epoxy polymers. The work was completed with Oregon State University and was funded with an SBIR grant from the USDA.

Additive manufacturing reduces the cost and lead time of individually produced parts. Most printed plastic materials lack the strength needed to replace metal parts. Synthetic and natural fiber reinforcement can increase the strength of these lighter plastic parts making them comparable to metal.  Well characterized design and manufacturing processes are critical to produce reliable composite parts.

Research focused on:

·         structural component designs including materials selection

·         pilot manufacturing process development

·         manufacturing and mechanical component property validation.

Outcomes identified possible techniques for component design and manufacture to:

·         eliminate plastic part anisotropy

·         control warp and residual stresses in composite components

·         verify plastic/epoxy bond strength

·         optimize print orientation

·         improve fiber reinforcement application

·         establish curing cycle and post-processing requirements.

Future research will study part design techniques to:

·         determine best practices

·         create structural and processing analysis rules

·         explore different material options

·         optimize manufacturing processes for small batch production

·         evaluate aging and environmentally induced stress responses.

Component design and manufacture showed positive results in terms of low-cost manufacturing process and performance. Fiber-reinforced parts performed better than the plastic-only reference components with strength comparable to the original metal parts. Data suggest that a reliable method for engineering and manufacturing fiber reinforced composites using printed parts was found. Proof-of-concept agricultural and robotic parts that can replace obsolete and custom equipment were shown to be potential affordable alternatives to the originals.  Design aspects like matching plastic core and fiber reinforcement characteristics for optimal final composite products need to be addressed in detail.

New composite alternatives can be used to:

·         make replacement parts

·         increase field productivity

·         upgrade or reconfigure machinery

·         improve equipment operations and efficiencies

·         manufacture components using more sustainable materials

·         enable local farms to be more independent in part procurement. 

This manufacturing process can enable small production plants to make parts locally as needed.  Future work should build on current results by studying custom design, materials selection, manufacturing process optimization and aging and environmentally induced stress responses.  Specifically, research focused on bonding reliability between printed parts and fiber reinforcement and combining components in a simple, efficient composite manufacturing process.

Work was subdivided into the following areas:

Mechanical Properties and Anisotropy of 3D Printed Parts. Baseline tests measured printed part mechanical properties prior to testing composite fiber components. ASTM standard tests of mechanical properties and microscopic analysis across a range of printers identified part anisotropy. Print parameters were established to limit anisotropy. Additional design parameters must be developed to limit impact on composite part performance.

Characterization of the 3D Printed Plastic-Fiber Reinforcement Epoxy Bond.  Detailed bond tests were performed on parts made using two different fabrication techniques and three alternate fibers. Single lap joints were shear tested to failure to study nylon composite bond response.  Multiple test scenarios characterized the nature of the bond, the minimum overlap requirements and the relative results with different fiber materials. Part failure occurred before the bond confirming the hypothesis. Actual bond strength data was captured. The use of organic fibers as an alternative lower cost composite reinforcement was confirmed.

Composite Manufacturing Process Evaluation. An established composite manufacturing process employed for small batch production was used for testing. Research focused on adapting these techniques to printed materials. Successful composite test parts were created and used for mechanical properties testing. Elements of the composite manufacturing process were investigated to improve the epoxy-nylon bond and to minimize component stress during heat curing. Trials were conducted to further simplify manufacturing techniques and optimize part quality. Work focused on three test components and three alternate fiber reinforcement materials. Iterations evaluated manufacturing process and part quality improvements. Findings were summarized in the published research.

Warping of Components During Curing. The effects of bonding between thin wall printed parts and fiber reinforcement using different configurations was studied. Thin wall components and the ability to assemble larger composite parts from multiple smaller printed parts are critical requirements for farming applications. The work focused on composite cooling times and fiber direction. Non-traditional inverse core sandwich constructions were also studied and tested. Results were positive; additional work will focus on further internal part stress reduction.

Design of Fiber-reinforced Test Components: Three designs were tested: a tractor linkage arm, a compound moment arm and a robotic fruit picker. These parts were selected as they experience different operational compressive and tensile stresses. The fiber reinforced parts were dimensionally comparable to the original metal parts. Mass reduction and low-cost manufacturing were assessed.

Construction and Testing of fiber-reinforced, 3D printed composite parts: Baseline finite element analysis for loading and elastic deformation simulations was performed on part designs. Unreinforced printed parts were mechanically loaded and tested; experimental results were compared to the simulations and test part baselines were created. Loading tests were repeated using fiber reinforced composite parts to characterize mechanical property augmentation due to fiber-reinforcement and the overall part performance. Extensive testing was conducted on all three parts using a range of fiber materials. The results were cataloged and contrasted to establish performance models. The work also analyzed the impact of composite construction methods on finished part mechanical properties.

Impact of temperature cycling on fiber-reinforced, 3D printed composite parts: Cyclical temperature tests performed on all parts using multiple fiber materials determined fiber bonding impact. This work measured bonded composite delamination using non-destructive test methods. Results confirmed that printed part design and fiber reinforcement location can impact composite bonding in response to thermal stress. Minimum printed part thickness must be determined to minimize warping, during the initial curing process and in response to subsequent thermal stress. Printed parts need to be designed and manufactured to account for internal thermal stress factors. Design techniques to improve part structural strength properties need to be included in future work. Finally, reinforcing composites should be selected to have a coefficient of thermal expansion that matches the printed core to minimize thermal stress warping.

To read the complete technical research report go to  https://www.rapidmade.com/resources

Join Oregon Chapter of Women in Manufacturing Networking Night

End your day with appetizers, refreshments and conversation!

Join WiM Oregon for our upcoming Networking Night. This is a great opportunity for manufacturing professionals at all levels to network over appetizers, and to discuss December fundraising opportunities for WiM Oregon.

No matter what level you are in your manufacturing career, we look forward to meeting with you.

Date:
Tuesday, November 12

Time:
5:00 PM - 7:00 PM

Location:
Delap LLP
5885 Meadows Road
Lake Oswego

We hope to see you there!

Student: Free
WiM Member: Free
Nonmember: Free

Register

Oregon Chapter of Women in Manufacturing Shares Safety & Ergonomics Best Practices

WiM members enjoying the view before dodging rare Portland thunderstorm

WiM members enjoying the view before dodging rare Portland thunderstorm

The Oregon chapter of Women in Manufacturing hosted a panel discussion on Safety & Ergonomics, led by Sherwin WIlliam’s Purdy management team. In addition to participants sharing best practices, the event’s highlights included refreshments and networking on a Portland rooftop garden, enhanced by city and river views. Attendees especially enjoyed the magnificent thunderstorm which entertained everyone during their meal.

Upcoming events will include a financial presentation hosted by DeLap LLP, a local CPA firm and a tour and talk on 3D printing hosted by RapidMade, a Portland-based additive manufacturing company.

Contact Renee Eaton at reaton@rapidmade.com for more information about the Oregon WiM chapter.

Participants share safety and ergonomic best practices

Participants share safety and ergonomic best practices

Design for Additive Manufacturing Workshop with HP and RapidMade

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Learn how innovative design and HP Multi Jet Fusion 3D printing can improve part quality, reduce costs, and speed up production.

Where: RapidMade | 15883 SW 72nd Ave, Tigard, OR 97224


When: Tuesday, April 9th, 2019 | 9AM - 4PM

Additive manufacturing is rewriting the rulebook for product design, which is why RapidMade is teaming up with HP for a free all-day event about design for additive manufacturing (DFaM) on the HP Multi Jet Fusion. Engineers and product designers are invited to join us for a special workshop led by additive manufacturing experts to learn more about how to get the most from 3D printing.

Here's what you'll learn: 

  • Why HP used the Multi Jet Fusion instead of injection molding to manufacture over 140 functional parts used in each of its new MJF 500/300 3D printers

  • Identifying applications for additive manufacturing across your product lifecycle

  • Training on the fundamentals of effective design for MJF

  • Design strategies for MJF process optimization

  • How the materials behave and what to consider when designing for each of them

  • New design paradigms for additive manufacturing and the required mindset change

  • Designing for value maximization (process and cost)

  • Training on the fundamentals of effective design for MJF

  • Live Design for Additive Manufacturing (DfAM) demo and application examples to inspire you

This free event will feature breakfast and lunch, as well as the opportunity to tour our facilities and consult directly with specialists from RapidMade and HP.

Don’t miss out on this exciting opportunity! Registration is limited, so click the link below to reserve your spot today.

REGISTER HERE

Agenda

8:30 – 9:00 AM Breakfast

9:00 – 9:15 AM Welcome & introduction

9:15 – 9:45 AM Multi Jet Fusion (MJF) basics

9:45 – 10:15 AM Why 3D & case study of HP's adoption of Multi Jet Fusion technology for production parts

10:15 – 10:30 AM Break

10:30 – 11:30 AM Deep dive on designing for additive manufacturing – strategy, guidelines, materials, considerations, machining & threads, bonding, process control, etc.

11:30 AM – 12:00 PM Cases for tooling and final part production – urethane casting, thermoforming, fluidics management, industrial applications & electric vehicle examples

12:00 – 1:00 PM Lunch

1:00 – 3:00 PM Applications discovery workshop

3:00 – 4:00 PM Consult with HP and RapidMade experts on your parts

We look forward to seeing you!

Can't attend?
Get in touch with our 3D printing experts here.

Oregon Business Magazine's Manufacturing Issue Highlights Gender Gap

RapidMade CEO Renee Eaton

RapidMade CEO Renee Eaton

Kudos to Oregon Business Magazine for its feature, Women’s Work, which details the chronic gender gap that continues in manufacturing. The article is based on interviews with female professionals in trade organizations, manufacturing firms, and higher education.

Together they show how improving gender representation requires a concerted approach from across the industry to reshape an institutionalized culture of gender-based segregation and redefine archaic norms of what work women can and cannot do.

Strategies proposed include:

  • Advising businesses that diversity will ease the labor shortage and improve the bottom line.

  • Promoting manufacturing careers to female students and professionals.

  • Providing supportive networks, like Women in Manufacturing and Oregon Tradeswomen, to help women secure employment and businesses find and retain female employees.

  • Breaking down the “bro culture” prevalent in manufacturing.

RapidMade CEO Renee Eaton, a Women in Manufacturing chair of its Oregon chapter was among the women featured in the article. RapidMade is a Portland-based additive manufacturing (3D printing) and engineering services firm.

Women in Leadership Forum Prompts Lively Discussion

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RapidMade’s CEO Renee Eaton recently spoke at the University of Portland’s Women in Leadership Forum. The event “connects UP students with women who are leaders in the greater Portland community. The forum is a place for sharing stories, building connections and supporting” leadership development.

As a former university instructor at UP’s business school, Renee was thrilled to return to campus, catch up with former colleagues and meet with students, faculty and staff. She described her career path, lessons learned and starting a business in 3D printing (additive manufacturing) and engineering services.

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RapidMade CEO to Speak at University of Portland's Women in Leadership Forum

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Renee Eaton, RapidMade’s co-founder and CEO, will speak at the Women in Leadership Forum next Wednesday, November 7 from 7 - 8 PM. The free event is being held at the University of Portland’s Pamplin School of Business which is sponsoring the evening’s discussion.

The Women in Leadership Forum connects UP students with dynamic women who are leaders in the greater Portland community. The Forum is a place for sharing stories, building connections and supporting the development of women in leadership.

Prior to launching RapidMade, a 3D Printing (Additive Manufacturing) and Engineering Services firm, Renee Eaton was a university instructor at UP where she taught management classes for almost 8 years, so the engagement is a welcomed opportunity to return to campus.

RapidMade Presents at NW Electronics Design & Manufacturing Expo

Alex Nolan, RapidMade Sales, explains Additive Manufacturing options to NEDME participants

Alex Nolan, RapidMade Sales, explains Additive Manufacturing options to NEDME participants

Mark Eaton, RapidMade’s VP of Sales and Marketing presented at the NW Electronics Design & Manufacturing Expo where he spoke about 3D Printing technologies and Additive Manufacturing’s evolution into final part production as a solution to short-run, custom manufacturing.

Recognizing that 3D printing is a means to an end, RapidMade’s team works to understand customers’ priorities to determine whether Additive Manufacturing is appropriate, and if so, which technology is the best fit. Regardless of the technology employed, additive manufacturing is redefining the ways in which things are made. We’re moving from mass, overseas production which requires extensive inventories to mass, localized customization which involves managing electronic files. Advances in materials allow a transition from metal to plastic finished parts. And with the introduction of HP’s Jet Fusion printer, the process dramatically reduces lead times and costs.

Contact us to learn more.

RapidMade's Manufacturing Team Expands with Summer Heat

RapidMade has expanded its manufacturing staff this summer.  Please join us in welcoming:

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Drew Christensen

All the way from the distant land of Wisconsin is our new Shop Technician, Drew Christensen. He's been a mold maker, fab tech, model maker, and everything in between. You can find Drew kayaking, fishing, or camping when he's not doing side woodworking projects. His ideal job would be what he's doing now, working with his hands. We're happy to have  Drew join the team.

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Max Poroj

Max Poroj, a specialist in CNC programming, machining, and manual programming, is our new Mill & Machining Operator. When he's not taking wrestling with his 5 kids, he loves to go camping with them to enjoy the outdoors. He's a big fan of dark science fiction, 3D modeling, and listening to audio books and podcasts in his free time. Welcome to RapidMade, Max!

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Cameron York 

Our newest 3D Print Tech, Cameron York, is an Oregon-native packaging manager and 3D modeler. He spends his off hours playing Frisbee golf, camping, and skateboarding. His dream job would be to own a 3D modeling studio. We're excited to see what you can create, Cameron!

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Ryan Colindres

Ryan was recently promoted to the position of Shop Supervisor. He grew up cage-free, Oregon-raised in Eugene and is an Industrial Designer. When he's not running the shop, he's creating, modeling, and designing; he craves adventures. You can find Ryan biking, swimming, hiking, and "camping, baby". Ryan hopes some day to be a serial entrepreneur. Congratulions, Ryan!

Join Women in Manufacturing Oregon Chapter's Workshop/Networking Event

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Join us on Wednesday, June 27!

WiM Oregon is hosting a mini workshop and networking event on Wednesday, June 27! Renee Eaton, WiM Oregon Chair, RapidMade CEO and former management instructor, will facilitate a session where participants complete the Kolb Learning Style Inventory and explore how their preferred learning styles impact their approaches to problem solving, communication, conflict and team effectiveness. Attendees will also have time before and after to network and socialize. We hope to see you there!  Refreshments will be served.

Date:
Wednesday, June 27, 2018

Time
5:00 p.m. - 7:00 p.m.

Location
Hillsboro Chamber of Commerce
5193 NE Elam Young Parkway, Ste. A  
Hillsboro, OR 97214

Pricing:
WiM member: $25
Nonmember: $40
Student: $20

*Limited space available.

RSVP

Thank you to our event sponsor!

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RapidMade CEO Promotes STEM Careers to Skyview High School Students

RapidMade supports nConnect, a non-profit organization that connects professionals and schools, to promote career planning and college preparation. 

RapidMade supports nConnect, a non-profit organization that connects professionals and schools, to promote career planning and college preparation. 

It's always great to get back into the classroom!  On Friday, RapidMade's CEO Renee Eaton  participated in nConnect's Speed Networking event at Skyview High School in Vancouver.  Students especially enjoyed seeing all of the 3D printed objects she brought.  And they loved hearing how additive manufacturing is changing the fields of medicine, aerospace, marketing and manufacturing - and how important STEM professionals are to the industry's growth and success.

These events are always a lot of fun for presenters and participants.  Based on the questions asked, there were many highly motivated first year students.

Afterward, Renee had a chance to meet the school's Manufacturing faculty and see their bank of desktop 3D printers.

3D Printed Periscope Phone Case Allows Everyone to be a Photo Pro

Defox has launched its Periscope Case, a novel phone case that uses mirrors and straps to transform one's smartphone into a versatile, easy-to-use camera that enables active photography. Manufactured in Portland, Oregon, Defox is using RapidMade's new HP Jet Fusion 3D printer to produce the cases in sturdy nylon.  Act now for the early bird discount!

 

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.

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

 

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

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.

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.

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.

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.

 

RapidMade Clients Named PBJ Small Business & Innovation Award Winners

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.

Congratulations to Paper Packaging on Retirement After 53 Years in Business

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!