3D Modeling

Display Your Way to Generate More Business

Capture your customers' imagination with creative, one-of-a-kind displays and models.

Pump cutaway model shows off internal components of Cornell Pumps

Pump cutaway model shows off internal components of Cornell Pumps

Marketing

  • 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.
Custom promotional giveaway for "Red Bull Guest House" party in Florida

Custom promotional giveaway for "Red Bull Guest House" party in Florida

Promotions

  • 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.
Colored graphic blocks used by Amazon Web Services to explain its cloud services to prospective customers

Colored graphic blocks used by Amazon Web Services to explain its cloud services to prospective customers

Displays

  • Drive traffic to your stores at the window and sales with custom retail displays.
  • Stand out and get attention at your next trade show with eye catching models.
  • Capture your customers' attention and make them remember your brand
  • Lean on our design team to come up with a creative solution that will satisfy your customers and be flexible for your budget.
Reproduction of 3D scanned priceless Native American mask printed for Seattle Art Museum

Reproduction of 3D scanned priceless Native American mask printed for Seattle Art Museum

Exhibits

  • Store geometric and color data for priceless artifacts and works of art permanently with 3D scanning technology.
  • Use digital object data to engage visitors online with interactive web exhibits.
  • Create to-scale or re-scale replicas that let your visitors safely interact with models of priceless artifacts without endangering the original piece.
  • Create complimentary pieces for your exhibit from object data scanned by other museums around the world.
Development model shown to Portland City Council for project approval

Development model shown to Portland City Council for project approval

Architecture

  • Turn around in as little as 24 hours means more time to perfect your designs.
  • Embedded textures lets you simulate the colors of building materials like brick, stone and wood.
  • Small features lets you design realistic windows, doors, beams, facades and other important visual design elements.
  • Prints come directly from your BIM models.

How can we help you?

RapidMade's Manufacturing Team Expands with Summer Heat

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

Drew.jpg

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!

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.

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

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. 

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

Thermoform+styrene+tray+gif.gif

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

 

Industrial Design Debuts at RapidMade

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

Pittsburgh Bridge 3D Scanned to Produce Replicas - a Home Run in the Making

Our friends at Direct Dimensions in Owings Mills, Maryland, will be "creating a 3D CAD model" of the Roberto Clemente Bridge in our hometown of Pittsburgh, Pennsylvania.  The resulting files will then be used to create 3D prints of the bridge for an upcoming RAPID + TCT show being held in Pittsburgh in May.

Pittsburgh, long recognized for its sports accomplishments, is becoming well known as a Center of Excellence in Additive Manufacturing as well.



 

3D Printing Great Tool for Displays, Exhibits and Promotions

Development model shown to Portland city council for project approval.

Development model shown to Portland city council for project approval.

Capture the imagination of your Customers and Patrons with Unique Displays:

Architecture

  • Turn around in as little as 24 hours means more time to perfect your designs.
  • Embedded textures lets you simulate the colors of building materials like brick, stone and wood.
  • Small features lets you design realistic windows, doors, beams, facades and other important visual design elements.
  • Prints come directly from your BIM models.

Marketing

  • 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.

Promotions

  • 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.

Displays

  • Drive traffic to your stores at the window and sales with custom retail displays.
  • Stand out and get attention at your next trade show with eye catching models.
  • Capture your customers' attention and make them remember your brand
  • Lean on our design team to come up with a creative solution that will satisfy your customers and be flexible for your budget.

 

Exhibits

  • Store geometric and color data for priceless artifacts and works of art permanently with 3D scanning technology.
  • Use digital object data to engage visitors online with interactive web exhibits.
  • Create to-scale or re-scale replicas that let your visitors safely interact with models of priceless artifacts without endangering the original piece.
  • Create complimentary pieces for your exhibit from object data scanned by other museums around the world.

RapidMade Advantages:

  • Color: with almost 400,000 colors to choose from, why skimp?
  • Size: scale-down huge machines or buildings to hand-held or table-sized replicas
  • Logistics: avoid lugging heavy machinery to trade shows
  • Creativity: turn your BIM and CAD models into tangible marketing materials
  • Carefree: leave the design and fabrication to us, just supply the ideas

OMDOG Performance Canine Headgear Lets Your Dog Ride Safely in Style

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!"

3D Printed Iceman Heats Up Museum Display

Photo Credit: 3Dprintingindustry.com

Photo Credit: 3Dprintingindustry.com

One popular application of 3D printing is creating exact reproductions of antiquities.  As is often the case, museums want to display artifacts but face challenges making priceless objects available to the public.  The latest example of this technique is the recreation of the Iceman.  

Ötzi - the Iceman, the oldest European mummy, was replicated by Additive Manufacturing. Two 3D replicas have been made for display at the South Tyrol Museum in Italy. Using CAT scans taken of Ötzi, the models were rendered and printed using 3D engineering and manufacturing techniques. Once printed and assembled, a rubber mold was applied to the replicas, which were then sculpted and painted. Because Ötzi needs to be preserved, he will be stored in stable conditions while visitors of the museum can see these identical models.

3D Printing Makes Custom Solder-Free Circuit Boards Cleaner and Easier

It is now easy to make your own custom solder-free circuit boards through 3D printing. An independent creator on DIY website Instructables has 3D printed its own personally designed circuit board. The circuit board was created in CAD, printed, and its trace channels lined with conductive material. Once built, this circuit board does not require solder to establish working electrical connections, an easier and cleaner way of building your own circuit boards. This is perfect for hobbyists but also indicative of the many custom applications 3D printing can have in technology development. Read the article for more details on how to build your own custom circuit board.

RapidMade Expands Services Offered

3D Printing, Manufacturing and Engineering

RapidMade's services now include:


Product Design and Engineering

  • Simple static part design to fully automated mechanical and electrical equipment
  • Design for prototyping and manufacture
  • In-house prototyping capabilities for faster iterations and overnight customer feedback
  • 2D and 3D drawings, tolerance and other manufacturing specifications, technology transfer and patent application documentation, equipment manuals, FDA and other compliance as well as other specialized engineering work

Rapid Prototyping

  • 3D printing, quick-turn machining, traditional metal and plastic forming, short-run castings
  • Thermoset and thermoplastic manufacturing, hard and soft metals, composites available
  • Full-color concept models, functional prototypes, assembly and embedded electronics
  • Quotes generally in under 24 hours, parts in days

Contract Manufacturing

  • Production quantities ranging from one to tens of thousands
  • A multitude of available manufacturing processes 
  • Expertise in selecting the right manufacturing process for you
  • Personalized attention to detail and top quality customer service
  • Tooling and part library for easy re-orders

3D Scanning and Reverse Engineering

  • Extremely high accuracy 3D digitization of parts as a reproducible STL file
  • Available reverse engineering to create fully defined parametric files and 2D dimensioned drawings
  • Inspection of manufactured goods to identify deviation from the original design
  • Full-color scans also available

Industrial Pattern and Toolmaking

  • Highly accurate tools in days, not months - at a lower cost
  • Patterns and tools available for all standard manufacturing processes: Injection molding, urethane casting, sand and investment casting, sheet metal stamping, plastic forming and much more
  • Additional finishing capabilities available

Displays, Exhibits and Promotions

  • Full color 3D printing can be done as quickly as under 24 hours
  • Print directly from renderings in CAD or BIM modeling software
  • Great for architecture, store display and marketing customers
  • Very fine feature detail and beautiful aesthetic quality

Finishing and Coating

  • A wide range of finish options including paint, powder coat, plating, media blast, tumbling and much more
  • Clear coat and dyed plastic available for cost effective finishing of prototypes and manufactured goods

Academics Use 3D Printing to Rebuild Artifacts Destroyed by ISIS

3D print by RapidMade for Decimate Mesh Art

3D print by RapidMade for Decimate Mesh Art

Since ISIS began destroying priceless artifacts in territory it controls, archaeologists and artists around the world have been scrambling to salvage and, or recreate the objects being annihilated.  Recently RapidMade worked on one of these projects:  Ryan Woodring's Decimate Mesh Art Exhibit.

Closer to the tragedy, in a bold and proactive counter offensive, 

Archaeologists at Oxford and Harvard have launched a high-tech offensive against Isis by creating a full digital record of threatened ancient sites and artefacts in the Middle East by Islamic State.

Using 3D cameras, the academics  who've partnered with Unesco, plan to collect millions of digital images that will enable them to capture and reconstruct any piece that is destroyed. Their plan involves positioning "hundreds of the internet-enabled 3D cameras around important sites where they will take full photographic records from several different angles before uploading them to an open-source database online.

Given the wide-scale destruction wrought on the area to date, the project team recognizes that it is literally "up against the gun" to save as many antiquities as it can.

For years, museums like the Smithsonian have been creating digital libraries of their collections to catalog, study and share.  But this effort is one of the first geared specifically to safeguard artifacts from defacement or destruction.

 

 

 

 

 

What Manufacturers & Developers Should Consider when Investing in 3-D Printing

Here's a great white paper written by RapidMade Co-Founder and Advisor Mark Eaton:

Investing in 3-D printing technology can provide significant business advantages. Product development, customer value, manufacturing costs and product life cycle management can all be positively impacted by this technology. Determining where to make the investment requires careful consideration of the expected outcomes and thorough analysis of the business, processes or products that will be impacted by the investment.

For companies considering investing in 3-D printing, outsourcing to a reputable service bureau is a viable, cost-effective alternative that is less susceptible to changes in technology and materials than in-house ownership. The benefits derive from eliminating the initial capital cost of the equipment and the infrastructure setup cost to avoiding the operating costs of ownership and obsolescence issues relating to the rapid development of 3-D technology.

History of the 3-D Printing Market

The technology for 3-D printing, also known as additive manufacturing, has existed since the 1980s. Although the additive manufacturing market took approximately 20 years to reach $1 billion, five years later in 2012, it had reached $2 billion. By 2013, consensus estimates by Gartner and Wohlers indicate it had reached $2.5 billion. A significant portion of this revenue was derived from 3-D printer sales, but estimates by PwC and ZPryme indicate that by February 2014, 67 percent of manufacturers who responded were already testing or using 3-D printing.

Despite advances in speed, reliability and material availability, 3-D printing has to this point still been largely used for prototyping, testing and tooling. Although rapid prototyping remains important, the pivot to printing more fully functional finished products and components is the direction that analysts see the sector heading.

For example, GE plans to mass produce 25,000 LEAP engine nozzles using additive manufacturing and already has $22 billion in commitments, said Dr. Mark Cotteleer of Deloitte Services in October 2014. Medical, dental and automotive are other sectors that report increasing use of 3-D printing to create fully functional parts.

Yet, in a recent December 2014 Gartner worldwide study, 60 percent of respondents cited the high acquisition and startup costs as delaying their investment in 3-D printers. Of those surveyed, 37 percent had just one 3-D printer within their organizations, with 18 percent owning 10 or more.

The average number of printers per organization was 5.4. One interesting finding was that respondents felt overwhelmingly that using a 3-D printer as part of their supply chain generally reduces the cost of existing processes, especially research and product development costs. The study concluded that those companies who were using the technology for product development were seeing a 4 percent improvement in costs.

Types of Technology and Materials

Despite the widely held mistaken belief that 3-D printers can "print anything," commercial manufacturers and product developers are still faced with the reality that there are many types of 3-D printing processes. Each process has speed, part tolerance and quality-related factors to consider.

Similarly, each 3-D printer is designed to work with a select set of materials. Most commercially available 3-D printers (often called professional or production printers) are designed to work with either plastic or metal. However in the case of plastic, the material or polymer will vary depending on the 3-D printing process, as will the mechanical, aesthetic and functional properties of the finished part.

UV-cured polymers behave differently to laser-sintered nylons. In the case of metals, parts printed on a laser-sintered machine will have different properties to those produced on an electron-beam or laser-melt style printer. Complexity further increases when the user has to consider ceramic, biomaterials and/or materials needing regulatory approval, which may require not only specialized materials, but printers with unique attributes.

Most materials, often termed feedstock, are pre-processed to create the liquid or powder that is ultimately reformed as a printed part. The cost of materials is a significant factor in the adoption of 3-D printing. Depending on the material type, prices can range from $35 to $600 per kilogram; specialty materials that have unique applications can be much higher.

In many cases, companies that supply 3-D printers try to control the material supply using, for example, prefilled cartridges or other means. Of late, this practice is beginging to change as new 3-D printer manufacturers enter the market, alternate material suppliers emerge and machine owners determine how to override printer settings. In fact, the study conducted by Roland Berger showed that experienced 3-D printer owners had effectively created their own supply chain, and this was driving down material costs.

Traditional Manufacturing Comparisons

Three-dimensional printing is still in the early adoption phase when it comes to the production of finished components and products. Speed of printing has yet to match the rates of typical mass production techniques. Companies such as GE, Siemens and Autodesk envisage 3-D printing being used in conjunction with or alongside traditional manufacturing techniques.

The rate at which 3-D printing will supplant traditional manufacturing techniques, such as CNC machining, injection molding or casting, is openly debated and will largely depend on advances in technology, materials and software.

But according to a recent Siemens report by Sandra Zistl, "Even though analysts at WohlersAssociates expect the rapid prototyping market to grow to more than $5 billion by 2020, 'Money will be made with manufacturing, not with prototypes,' forecasts Tim Caffrey, a consultant at Wohlers." This assessment is shared by Bernhard Langefeld, a machine construction expert at Roland Berger Strategy Consultants and one of the authors of the study titled "Additive Manufacturing – A Game Changer for the Industry?"

What is also often a source of debate is the degree to which commercial manufacturers and product developers should own or outsource 3-D printing technology. Here we have to turn to traditional methods for evaluating capital investment and make-buy decisions. At the same time, we have to consider the risks of obsolescene, premature adoption of new technology, and the true cost of ownership.

In order to asses the capital investment or make-buy decision, we first must understand the expected financial and commercial returns from the decision, and to do that, we have to carefully consider the benefits of 3-D printing technology and where to apply it.

The capital cost of acquiring a professional or production 3-D printer varies tremendously. UV polymer printers vary from the mid-$30,000 range to $200,000 for the more complex machines. Metal-laser sintering machines will cost anywhere from $500,000 to $1 million-plus. It is also important to realize that just like traditional manufacturing, there will be additional costs for cleaning systems, dust collection, chamber gas-delivery and recovery systems, and for more sophisticated printers, complex material handling systems will be needed. Similarly, space and building requirements have to be considered, as do machine layout, material flow and cell design.

Three-dimensional printing is able to create a part directly from a digital file. However, this creates additional considerations because the ability to create an effective part is a function of the quality of the file; for example, is it an accurate representation of the desired finished part? Software that can manipulate the file to change the structure of the part or that can adapt the file to more effectively print the product is also available.

For each printer type, there is often a need for different types of software. The costs of this software must also be conisdered as part of the capital investment. Workflow software is also required when managing multiple files and parts if the production of these parts is to be efficient.

3-D Printing Applications

As this white paper indicates, there are many potential applications and markets for 3-D printing technology. In general, these can be 

characterized into four primary categories; marketing and promotion, product development and design; production elements such as tooling, fixtures, products and components; and business services.

When considering an investment in 3-D printing, determining the application or intended purpose requires the investors to make a careful assessment of their existing business, process or product. Secondly, it requires a clear understanding of the expected outcomes from the investment; reduction in product development time, increased customization, lower supply chain costs, improved quality, new commercial opportunities and added customer value are some of the examples often cited for investment.

For example, the United States Postal Service estimates turning postal processing centers into 3-D printing hubs could generate $646 million in commercial packaging revenue. However, reaching such a conclusion requires analysis and investigation of multiple factors as well as a thorough understanding of available technology, materials and software. In these cases, businesses are turning to existing 3-D printing companies such as Stratasys, RapidMade and Baker 3D Solutions to help them navigate the decision process.

3-D Printing Total Cost of Ownership

Having identified the need for investment in 3-D printing, the business leader is most often faced with the make-buy decision (or in-house vs. outsource). A number of factors must be considered.

Traditional factors such as the protection of intellectual property and the critical nature of the product or component remain important. Of additional importance is the degree to which the 3-D printing technology itself is evolving. In 2009, the FDM patents expired, which led to the launch of many low-cost desktop copies. Similarly, in 2014, the SLS sintering patents expired, and this is expected to impact the cost of these printer types. Three-dimensional printer speeds are expected to increase fourfold over the next five years with companies such as Siemens stating that material feed rates will improve from 10 cm3/hr to 80 cm3/hr.

While many 3-D printing manufacturers market and advertise the simplicity of these machines, the reality is that print builds fail and need to be reprinted. Similar to traditional manufacturing processes, there are usually post-processes required to finish the product. There are waste streams that have to be managed; support material often has to be removed, and production has to be planned to ensure the printers run efficiently. Labor operating costs are similar to modern CNC machines, although these can be automated if volumes dictate.

For a typical commercial manufacturer or product developer who is producing products constructed of multiple materials and components, multiple 3-D printer types will be required. It is not uncommon to require multiples of the same machine because print rates sometimes result in daylong builds. The Gartner survey from December 2014 found that, for those owning 3-D printers, the average number of machines owned was 5.4. For a simple product development, for example, it is not uncommon to need three different types of 3-D printers.

This total cost of ownership analysis and the recommendation to buy versus make is very similar to the analysis that would been done for a traditional machine tool. What is the labor cost to operate; what are the waste factors; what are the utilization rates; what are the utility and space considerations; what are the maintenance costs, etc. Factors that will also need to be considered are the material limitations of each 3-D printer type, the software and the pre-processing that is required along with the associated costs.

In most cases, there will be fixed engineering and operating support costs that will have to be applied over the planned usage hours. Consumable costs will include materials as well as print heads, UV lamps, lasers, build plates, support material, part-cleaning solutions, chamber gas, etc.

For many situations, the option to buy from a "service bureau" will be more cost-effective than owning the technology. As with traditional manufacturing, a service bureau can specialize by using one type of 3-D printer or by better leveraging costs over aggregated production volumes.

As a cautionary note, it is important to select a reputable service bureau. Not all 3-D printers are built to the same quality and their ability to maintain build tolerance or part strength will vary. So it is important to understand how the part will be printed.

As with traditional manufacturing, service bureaus can be differentiated by those that have engineering expertise, a quality management system, a maintenance program and certified technicians compared to those that do not. Just like traditional manufacturing, there are print tolerance limitations that have to be considered in the design, and a service bureau with embedded engineering capabilities will be able to address these issues.

Consider also the importance of ensuring that the material supply chain is robust. Whether the decision is made to print In-house or through a service bureau, control of the material supply chain, both from a traceability and a material compliance viewpoint, is a consideration.

For mission critical or complex materials, organizations such as the Lawrence Livermore National Laboratory can provide independent certification of the material. In general, because these are essentially created materials, their properties will approximate but not always replicate traditional materials. Having access to knowledgeable resources will help avoid common pitfalls.

RapidMade Hosts 3D Printing Summer Camp Students

Middle School students from Catlin Gabel 3D printing camp enjoy RapidMade tour

Middle School students from Catlin Gabel 3D printing camp enjoy RapidMade tour

RapidMade recently hosted 13 middle school students and 2 chaperones from Catlin Gabel's 3D printing summer camp.  The group learned how we scan objects and prep files and then watched prints being made on our Objet30 Pro, Fortus mc250 and Zprinter 650.  Later they were shown how 3D prints are post processed and finished.

Learn Laika's Lessons for Full-Color Printing

Photo Credit: Laika

Photo Credit: Laika

3D printing in full color can be challenging when color matching is a top priority.  As RapidMade and our Portland neighbors at Laika can attest, "what you see" is not necessarily "what you get..."  It takes expertise to ensure a client's color choices translate well from the CAD files to the Color Jet 3D printer.

Laika Entertainment, a stop-motion animation studio, has been using Color Jet printers to create characters for its feature films including Boxtrolls and ParNorman.  By necessity, Tory Bryant, its in-house specialist,  has learned to master the nuances of its various printers to maximize color control

Her first lesson?  The 3D printer likes blues and greens, flesh tones - not so much - which, given the work Laika does, is an obvious challenge.  And so began a process that led them to develop a process to ensure quality control.

The following excerpt is courtesy of Creativeblog.com 

Create a color-matching book:

This technique is difficult for anyone without direct access to a 3D printer...

Tory printed every Pantone colour formula with the 3D printer. She painted the same formula on the computer screen. Then she compared the two and figured out the digital formula she needed to match the printer’s colour.

’A blue on the screen might be green in the printed material,’ she says. ‘I needed to trust that if I followed the rule, in the end, I would get the result I was looking for. I have to be very methodical.’

Use colors to enhance details:

Manipulating the files prior to printing is strongly recommended. 

To enhance edges and pop details, Tory uses complementary colours. ‘Lips can go orangey-red,’ she says. ‘So, if I want bright red lips, I put green with a little blue on the edge of the lip line. Our eyes read the lips as brighter and more vibrant. Sometimes I put a bright yellow around a freckle. Having elements around the freckle keeps the print heads active, so I get sharper edges and cleaner colour.’

Paint on the inside:

Use a multilayered technique to create "depth and detail."

‘The powder-based material is translucent,” she says. “I could paint on the back and have it bleed through as the front bleeds into it. I created veining on Snatcher’s face, blush in the cheeks, elements that come in and out of his face.’

The impact of thick and thin:

Recognize that darker colors are applied more deeply than lighter colors and factor this into your design.

Check the file format:

File compression can result in lost information which produces poor quality prints.  

This is one reason you should select your printing provider with care.  Many will simply print what you send them without first evaluating the print-readiness and quality of your files.  RapidMade always reviews files and identifies problems  before the print is made.  In addition to color issues, part thickness can also be a problem that requires redesign.

We would also recommend you consider your printer choice.  When the outcome matters, choose an industrial-grade machine like ours which has:

  • Full color, ceramic-like composite material

  • a turn-around time as little as a single day.

  • A full palette of over 390,000 colors

If you have a figurine or model you'd like to get printed in color, learn more.  

 

 

3D Scanning Insures Access to Critical Spare Parts

Today, it is too easy for firms to become dangerously dependent upon their suppliers.  Imagine that a key distributor goes out of business or a critical supplier stops making spare parts. What happens when your supplier has your tooling, and you need to modify it?  When your machine breaks down, and you need to replace the part, you don’t want to learn repairs are no longer possible - orders are backing up; production is at a standstill, and you are stuck scrambling to find an alternative. Even if you find another supplier or new equipment, you’ve already spent considerable time and money, something every business and entrepreneur has little to spare.  

Now imagine an insurance policy that guarantees that no matter how old the part or obscure the producer, you know that the part can be made and the job can get done with little delay. How?  Scanning and converting parts and products into digital 3D images reduces your dependence on unresponsive suppliers. 

Digitization allows companies to:

  • Create a catalog library or parts inventory.

  • Find spare or obsolete parts.

  • Reverse engineer an existing product or part.

  • Replicate a new product.  

Rapidmade, renowned for its 3D printing, scanning services and engineering capabilities, efficiently and effectively renders these services for Fortune 50 and small start ups alike.  

Why use us?

  • Professional 3D laser scanners are able to capture fine details and are not susceptible to issues with reflection, thickness, and color.

  • Our software can accurately smooth and sculpt the part allowing you to have consistent quality.

  • We ensure that there are no errors and can often print the part for assurance.  

  • Rapidmade offers cost effective and competitive pricing schemes that include a quantity discount:  having multiple parts scanned at the same time allows us to offer an inexpensive 3d scanning option.

Having a digital parts catalog liberates you from unresponsive suppliers. You insure your assets; why not ensure that your business is safe by digitizing critical parts?

 Contact us to learn more.

 

 

 

 

"CROWD COW" Project "Udder" Fun for RapidMade

Adam McGee's sons, Nicolas and Damon "ham" it up with Crowdcow

Adam McGee's sons, Nicolas and Damon "ham" it up with Crowdcow

RapidMade recently participated in Portland's 3D Printing Meetup group project, "Crowd Cow" which was unveiled last week at the Urban Farmer restaurant in the Nines hotel.  

Their latest “why not” project is half a life-sized cow, made of 99 pieces printed on 14 separate 3D printers representing 700 hours of printing. It’s in collaboration with Urban Farmer restaurant, who will add an interactive, multimedia component and display the cow in their front window, showcasing the different anatomy of the various meat cuts (Stephanie Yao Long, Oregonian Live).

The Crowdcow is a vivid example of 3D printing's ability to convey educational concepts in a concrete, understandable way that utilizes more of our senses.  It allows one to literally capture his or her imagination.  Many firms have asked RapidMade to help them educate clients, patients and students with hand-held replicas of body parts, industrial equipment and commercial products.   The life-sized cow?  That was "utterly" fun .

 

 

 

 

 

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Son Helps Father Get a 3D Printed Face

Reconstructive Scientist scans son's face to 3D print a prosthesis for his dad (Photo Credit: 3Dprint.com) 

Reconstructive Scientist scans son's face to 3D print a prosthesis for his dad (Photo Credit: 3Dprint.com) 

Anyone who has experienced facial scarring can appreciate the pain and embarrassment that often accompanies the disfigurement, no matter how minor.  After four relatively simple surgeries to reduce the scarring and improve the shape of my nose, I am still sensitive about how it looks - but then I read the following story in 3dprint.com which described the medical miracle of a man who got a new face - and lease on life - through 3D printing.  To say it put things into perspective would be an understatement...

Every year, thousands of individuals are left with terrible deformities due to their courageous battles against cancer. This was the case for a 74-year-old man named Keith Londsdale who had started his battle again cancer all the way back in 1990, undergoing 45 different procedures to save his life against a very aggressive form of basal cell carcinoma.

When all was said and done Londsdale’s life was spared. However, he was left without an upper jaw bone, cheekbones, his nose, and his palate, and in their place was a gaping hole. Without the ability to properly speak, eat or drink, doctors sought out a solution to make this brave man’s life as normal as possible.

Until recently, most prostheses have been functionally or cosmetically lacking.  (I remember a patient who had lost her lower jaw to disease, and she had a basic plastic cup that just sat where her jaw had been).   Now, 3D scanning, modeling and printing are achieving lifelike results that closely match the recipient's existing features.

Keith Londsdale is one such beneficiary of medical additive manufacturing.  His son, Scott, worked with Jason Watson, a Reconstructive Scientist at Nottinghams' Queen's Medical Center, to create a prosthetic that incorporated Scott's features to ensure a familial likeness.

Watson had Scott come into the hospital where they 3D scanned his face. From the scans, a sophisticated computer algorithm created a 3D printable model, which the team at Queen’s Medical Centre was able to print out. Basically doctors now had a 3D printed physical replica of a portion of Scott’s face they then were able to copy in wax and create a mold from. From that mold they then created a silcone mask from Scott, which fit Keith’s face nearly perfectly.

Imagine the day when such prostheses are bio printed using living skin cells.

 

 

3D Printing Assists Wrist Surgery - No Sleight of Hand Needed

3D Printed Wrist Model (3DPrint.com)

3D Printed Wrist Model (3DPrint.com)

Having recently endured wrist surgery on New Year's Eve, I was pleased to see this story (and not just because RapidMade prints 3D models)..

Doctors have again turned to 3D modeling and printing to assist them in a challenging surgery.  This time, it was to fix a wrist injury which, unlike mine, couldn't be routinely repaired.  A university student broke his hamate bone and fourth Metacarpel  - a complication that created difficulties.

This caused a significant problem for orthopedic surgeon Liu Rong, who could not accurately see the exact breaks of both these bones on traditional x-rays and CT scans. Since the breaks were so close together the surgery seemed nearly impossible. There was hope though, as Liu Rong and his team decided to utilize 3D printing in order to more accurately assess the damage to Wang’s right wrist.

Dr. Rong's team took images from the patient's CT scans and used them to print the model pictured above.  Having an exact replica of the broken bones, the surgeon was able to plan the surgery in advance which reduced operating room and anesthesia times.  Shorter surgeries save hospitals money and less anesthesia improves patient outcomes.  

My post-op wrist via traditional Xray image.

My post-op wrist via traditional Xray image.

Personally, I'm looking forward to widespread adoption of this technology...  My own surgery took longer than planned because my wrist was worse than expected - there were bone fragments that had to be removed.  As a result, the anesthesiologist had to fully sedate me, and I ended up spending New Year's Eve in the hospital - not a Happy start to 2015, so while I hope to never go through a similar procedure again, I'm heartened by the adoption of 3D printing.