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Learn more in this solution brief about how 3D printed jigs and fixtures for a more profitable production for your factory floor.
Experience how additive manufacturing drives success, helping you deliver faster and compete stronger from initial idea to production end use parts.
Read this white paper to discover how by 3D printing injection molds, manufacturers can functionally test final parts within days of initial design.
3D printing materials let medical designers work in new ways.
Disruptive principles and development episodes.
Learn about thermoplastics including TPU 92A and and get essential information regarding application fit and material characteristics in this whitepaper.
Seven 3D printing STEM projects to do with your class.
Identification of candidate procedures and resulting value.
Comparing two rapid prototyping alternatives.
How printing with FDM works.
Disruptive technology is good for business. Learn more about how 3D printing with additive technologies can help your business.
Characterization Of Material Properties, FORTUS ABS-M30.
How Additive and Traditional Manufacturing Mix
The Aircraft Interiors Certification Solution gives you a faster, simpler path for certifying additively manufactured parts for aircraft installation.
How to realize an extreme reduction in time and cost by making your custom manufacturing tools such as jigs and fixtures via 3D printing.
Moving from rapid prototyping to production applications in the automotive industry
Developing a medical device product line comes with many challenges. Download our white paper and learn how additive manufacturing offers unique solutions.
High performance thermoplastics offer efficiencies and design flexibility.
Application and guidance on material selection.
PEKK-based Antero 800NA is well suited for aerospace applications because of its strength, low outgassing properties and chemical resistance.
Water-based antimicrobial coating for 3D printed medical devices.
The district’s hands-on approach starts early, with students learning computer design to 3D print their creations in the first years of their education.
Learn more about the soaring potential of manufacturing applications and material advancement.
Read how Askja Audio uses 3D Printing via the Fortus 900mc to create an amplifier with no geometric limitations and without sacrificing sound quality.
Aurora Flight Sciences shapes the future of flight using 3D printing to design and develop the world's first 3D printed jet-powered aircraft.
How 3D printing delivers real-world design and production challenges to students in the classroom.
By adding 3D printing to its design process, Bajaj Electricals quickly reduced its concept-to-retailer product development time from 1.5 years to 7 months.
Balea Streamlines Prototyping Process with In-House 3D Printing
Bell Xworx's rapid prototyping used a Fortus FDM (fused deposition modeling) system to build tough polycarbonate wiring conduits for an aircraft upgrade.
Join us for the Beyond Products Webinar to learn how 3D printing is innovating how we create products and how you can innovate your entire business.
3D Printing Improves Treatment for Thoracic Wall Tumors
CBMTI now 3D prints detailed multi-material models with the J750 that mimic real anatomy, even down to a specific patient’s tumor.
Bluefrog Design used 3D printing to design a custom, lightweight, wearable solution to help change the life of a man with a rare medical condition.
Join mechanical engineer and researcher Samuel Mills to learn about the study of bone daggers, FEA Analysis, and how 3D printing assisted his research.
Boston University uses 3D printers to allow students to iterate quickly, and learn the skills needed to prototype their designs for various challenges.
How Stratasys F123 3D printers make rapid prototyping more accessible and productive.
This eBook explains the fundamentals of 3D printing and how this technology has the power to radically improve your business.
Exposure to 3D printing enables members of the Cambridge University 3D Printing Society to solve complex problems and prepares them for future careers.
3D printing gives Cardiovascular Systems the versatility to rapid prototype, test devices from a reliability standpoint and print case recreations.
Case Western Reserve University established the Sears think[box] as an innovative and entrepreneurial space for students on campus and the local community.
3D printing prototypes allows CAD to fail fast and produce design iterations quickly or change a product design overnight to meet a customer’s deadline.
Join us for the Certified 3D Printing at the Point-of-Care Webinar to learn the value of 3D printing in the surgical planning process using Materialise Mimics Inprint Software paired with Stratasys multi-color polyjet 3D printers .
By 3D printing small batches of interior airplane parts, the CEA Additive Manufacturing Lab cuts lead times and costs and maintains safety standards.
3D printing, is vital to Christie’s approach to prototyping and improving products and lets engineers complete numerous design iterations quickly.
This solution brief explores 3D printing solutions that prepares students for the technical workforce and highlights schools that are using the technology.
CTI uses 3D printing to design a new skull for a 12-year-old boy who lost part of his cranium in an accident that adjusts as the boy grows.
Make the most of your 3D printing investment with additive manufacturing (AM) training.
Stratasys partnered with Daihatsu, along with outside design partners, to create Effect Skins for cars: intricate, tactile patterns built with 3D printing.
3D printing allows Dash CAE to produce tools for low-volume parts for Formula One racing quicker than any other manufacturing process.
Dassault Falcon Jet and Stratasys partnered to determine the viability of using FDM technology for production-grade tooling in the aerospace industry.
Manufacturing tools made with FDM technology offer multiple benefits over traditional tooling. Learn more in our Design Considerations guide.
Join David Busacker from Blueprint for this brief exploration into what’s well-understood (and what will always be a little bit mad) about designing for additive manufacturing.
How to Design Your Part for Direct Digital Manufacturing.
3D printing enabled students at DSK to build strong and durable innovate vehicles, saving time and resources to focus on improving their design.
Motorcycle maker Ducati accelerates engine design with FDM prototyping to reduce time-to-market for new products by reducing the design cycle
Dunwoody College of Technology incorporates hands-on, applied learning in their program where students gain high-demand skills with 3D printing.
Eckhart provides solutions that streamline harsh manufacturing environments via 3D printing to improve the life of the people tasked with running the line.
Get a quick look into what elastomers are, how they are being used and what is possible with the TPU 92A™ 3D printed elastomer on the F123 in this webinar.
Is 3D printing spare parts on demand a realistic business model?
Quality is one of the core pillars driving the success at Elkamet Kunststofftechnik GmbH, a German plastic part manufacturer
Embry-Riddle RobotX challenge submarine rises to the challenge; create a streamlined watertight vessel and win the international competition.
Transform Manufacturing By 3D Printing End-Use Parts.
This Enhancing Clinical Preparedness white paper reviews the published literature on 3D printing applications for medical education and training.
Manufacturing with ESD PEKK.
In this 3D printing product guide, you'll learn how the Stratasys F120 delivers industrial-grade 3D printing at an attractive price with consistent results that desktop printers can’t match.
Increase your additive manufacturing repeatability with the F900 PRO and ULTEM™ 9085 resin. Learn about manufacturing challenges, the upgrade, and how F900 helps.
North America’s largest metal forming, fabricating, welding and finishing event heads to the Georgia World Congress Center in Atlanta in 2018.
FATHOM sees the unlimited potential to disrupt the manufacturing supply chain with 3D printing due to improvements in complexity, cost, and customization.
Learn how to get to market faster and work smarter, not harder with 3D printing via this FDM 3D printing rapid prototyping solution brief.
Discover the advantages of FDM technology for ancillary tools used in composite fabrication. Download the white paper to learn more.
Determining which is right for your application.
Reduce the time and cost to produce composite structures using tools made with FDM 3D printing technology and achieve dramatic efficiencies in production.
Using additive manufacturing for sacrificial composite tool production.
FDM thermoform tooling is produced much more quickly, at lower cost than traditional metal tools. Customization is fast and changes can be made quickly.
How innovative universities are incorporating 3D printing into the classroom.
Five Ways 3D Printing Is Transforming the Automotive Industry.
Fortus 360mc/400mc Accuracy Study.
December 2018: training needed to successfully use key features of the insight software for the Fortus 380/450/900 3D Printer Operations Level 2.
January 2019: training needed to successfully use key features of the insight software for the Fortus 380/450/900 3D Printer Operations Level 2.
Fortus 900mc Accuracy Study.
Qualifying the first polymer additive manufacturing material for aerospace.
Join us for the Freedom of Design In Your Business Webinar to learn how Stratasys enables additive manufacturing for companies to redesign their products, as well as their entire business strategy.
Future Motion’s uses carbon fiber nylon 12 for functional prototyping structural parts on their Onewheel personal electric transportation vehicle.
The German Aerospace Center designed a 3D printed device called the TransRoPorter to support space exploration and the study of Mars.
GKN Aerospace Achieves Significant Savings with Additive Manufactured Tooling and Prototypes
GKN driveline overcomes production downtimes with 3D printed manufacturing tools to accelerate production of automotive components.
GrabCAD Print simplifies the traditional 3D print preparation workflow and provides intelligence around printer usage so you can get quality prints faster.
The Hager Group uses 3d printing with the Fortus 380mc as a quick, flexible, design solution to cut tooling production time and costs.
Haier Molds uses 3D printing for iterative concept models to improve aesthetics and design, structural models for fit, and parts for functional tests.
IDEC is a leading Spanish provider of composite solutions for the aerospace industry, servicing its customers’ design and manufacturing needs.
3D printing opens new opportunities for In'Tech Industries in rapid prototyping and as a bridge to production before final injection molding.
With 3D printing aerospace engineering specialist Indaero can manufacture complex tooling on demand, for rapid and cost-effective low-volume production.
Six business advantages of owning an in-house 3D printer.
IRIS Ohyama uses multiple 3D printing platforms to speed up product development to stay competitive by making composite mechanical products quickly.
3D printed jigs and fixtures make light work of tooling, fixtures and manufacturing aids on the factory floor. Use cases show this cost-saving, ergonomic way to implement 3D printed jigs and fixtures on the factory floor.
3D printed jigs and fixtures make light work of tooling, fixtures and manufacturing aids on the factory floor that are cost-saving and ergonomic.
Production tools without tooling deliver real value to manufacturers with 3D printing.
Using the SR-100 soluble support material Joe Gibbs Racing 3D prints complex carbon monoxide filter housings for their cars using heat resistant material.
Joe Gibbs Racing wins at NASCAR with 3D printed custom Gauges modified weekly via 3D printing to design better parts and outperform the competition.
Justifying A 3D Printer Investment For Rapid Prototyping.
For KMCA 3D printing architectural models halves the time and cost of stick construction in order to quickly develop and change large scale models.
FDM 3D printing technology improves bioengineering research at the Korea Advanced Institute of Science and Technology Biorobotics Lab.
Kratzer optimizes in-house fixture production with additive manufacturing with the ability to rapidly create and source precise parts.
Labomed creates high-end microscopes and medical devices designed with the help of 3d printing to improve design quality and quicken the development cycle.
Additive technology has been a creative mainstay at LAIKA, evolving with LAIKA’s increasingly ambitious artistic vision and advancements in 3D printing.
Lakewood High School students use 3D printing to prepare experiment for space station through NASA's Create Hardware (HUNCH) program.
Lancaster University pushes design limits with GrabCad Voxel Print technology to foster design skills to tackle future real world issues.
Latécoère uses 3D printing for transformational manufacturing results to produce specialize aerospace structures for leading aircraft companies.
For Leptron, 3D printing with FDM reduces the time and cost required to develop unmanned aerial vehicle for military application to inspect terrain.
Lower your factory floor costs and improve efficiency with high-strength 3D printing by leveraging the strength of carbon fiber.
For Lockheed Martin Space a new 3D printing material in an ESD compliant polymer with higher thermal capability enables 3D printed parts on Orion.
Learn how to meet your company’s Lean demands using additive manufacturing, with working examples from customers Liberty Electronics and BOOM Supersonic.
Manufacturing-Ready White Paper
Learn how Märklin, creator of lifelike model trains transforms its production line with 3D printed tools in this case study.
Interdisciplinary learning on advanced technology strengthens STEM at Marlborough High School using 3D printing to develop critical thinking skills.
Marshall Aerospace and Defence Group Soars With 3D Printing
Additive manufacturing allows users to address complicated factory-floor problems with simple, targeted tooling solutions. Use this material guide to tailor your manufacturing solution to the needs of your factory, employees or your customers.
FEEL LUCKY? Then Go Ahead & Cut Prototyping in an Uncertain Economy.
Discover how 3D printed models improve patient outcomes and hospital efficiency at the Stratasys booth at the MEDICA trade fair in Düsseldorf, Germany.
Medtronic utilizes Stratasys 3D Printing Solutions for medical tools. They create working functional prototypes and improve tool designs.
Aircraft Interiors Expo is the global must attend event to see the latest ideas and innovations in aircraft interiors. Staged annually the show launched in 2000 in Cannes and has evolved throughout the years, moving to Hamburg in 2002. If you are involved or responsible for the purchase of cabin interiors, in-flight entertainment, connectivity, passenger experience and passenger services, this is the industry event you cannot afford to miss.
Mikkelsen Electronics accelerates workflow with 3D printed low-pressure molds that reduce production time and cost for affordable prototypes.
Milwaukee School of Engineering students test new elastomer 3d printing material, working with industries to help businesses solve unique challenges.
Minimizer's thick-gauge polyethylene fenders benefit from black ULTEM™ resin 3D printed prototypes and a pair of happy accidents.
MOCAP Design motion capture firm uses 3D printing to expand its helmet-mounted camera product and customize the HMC to each actor.
Moog Aircraft Group cuts fixture and lead times with FDM 3D printing, improving its internal capabilities for CMM inspection.
Motus Motorcycles uses 3D printing to help shape America's first sport-touring bike to take a rider far and fast on the perfect moden sportbike.
NASA's human-supporting rover for the Desert Research and Technology Studies program which roams the Arizona desert uses 3D printed FDM parts.
Nemoors created a 3D printed "exoskeleton" that let a little girl with arthrogryposis multiplex congenita lift her arms and play, changing her life.
An overview of new materials (Elastomer, Antero 800NA, and MED625FLX), software advancements and new technology for hyper-realism and 3D printed metal.
Old Dominion University uses 3D printing to complete at Robonation, national robotics competition in Daytona Beach, Florida.
Additive manufacturing technology dramatically changes how things are made, and Fortus 3D Production Systems are at the forefront of this transformation.
3D printing breathes life into Orange County Chopper's dragon motorcycle, reducing time and cost in the creation of custom parts.
Oreck uses 3D printing to reduce fixture production costs by up to 65 percent by producing their fixtures in-house with FDM technology.
A custom-tailored FDM 3D printed implant put the spring back in an injured dog's step, saving him from pain and discomfort.
Established in 1994 and headquartered in Holon, Israel, Pack Line Ltd. (Pack Line) is a recognized world-leading manufacturer of packaging machines and supplier to some of the biggest names in the food, dairy and cosmetic industries. The company produces innovative linear, rotary filling and sealing machines, piston fillers and MAP systems that increase productivity and operating efficiency while lowering operating costs.
Automotive-filter maker Parker Hannifin tests PPSF 3D printed prototype on V8 engine for functional design testing, mounting perfectly to the engine.
Qualifying the first polymer additive manufacturing material for aerospace.
Using 3D printing solutions Team Penske turns ideas into racetrack reality more quickly than previously possible. Download the case study to learn more.
3D printing helps solar upstart Peppermint Energy deliver energy everywhere with a portable plug-and-play solar generator for small energy needs.
Plyform Composites s.r.l uses 3D printing to raise the bar for aerospace production while increasing both speed and quality in this 3D printing case study.
Read how Polaris is innovating with 3D printing from Stratasys.
Hong Kong Polytechnic University uses 3D printing to improve eye orbital implant surgery by creating accurate custom implants prior to the operation.
Premium transmission serves the global engineering industry with FDM 3D printing technology improving on speed, cost, and efficiency.
Implementing Preoperative Surgical Planning Using 3D Printing.
Learn how Prince of Wales Hospital uses 3D printing to create bone models and surgical guides for orthopedic surgery preparation.
Justifying additive manufacturing through jigs and fixtures.
This guide focuses on the business considerations for additive manufacturing (AM) usage in the production of tooling.
In this 3D printing solutions research guide, you'll find technology and material comparisons, plus answers about 3D printer pricing and total cost to own.
Fly out of the 3D printer.
QED uses 3D Printing to design and print MRI coil housing, mechanical structures within the coils, production fixtures, and trays to protect assemblies.
Students solve problems daily with 3D printed solutions. QCC has launched over 100 projects in which students use 3D printing to provide solutions.
With FDM in jig and fixture construction.
RedDOT speeds production with FDM Nylon 12 3D printed prototypes and fixtures that enable accurate functional prototyping at lower cost.
RedDOT solves clients’ design problems with onsite functional prototyping for HVAC systems, saving time and money while designing accurately.
3D printing can help bring better products to market faster.
Ricoh used 3D printing to not only transform their rapid prototyping process, and expanded to 3D printing jigs for the production line.
This eBook will bring you up-to-speed on the rise of the field of soft robotics in 3D printing and the applications across a range of industries.
3D printing can be a key technology supporting Factory 4.0 transformation.
RTM Ortopedia Personalizzata uses 3D printing to customize their prosthetics and add high precision and functionality to the process.
In this 3D printing solutions guide, you'll find technology and material comparisons, plus hard-to-find answers about 3D printer pricing and total cost.
Read how Santa Cruz Bicycles’ uses 3D printing for concept modeling, prototyping and tooling in developing a custom mountain bike with the Fortus 450mc.
Savannah College of art and design leads with automated 3D printing enabling a huge development and advancement in art and design campus-wide.
The SEMA Show is the premier automotive specialty products trade event in the world located in Las Vegas, Nevada.
Innovate at the speed of thought with the Shaping The Talent of Tomorrow White Paper
FDM 3D printing direct digital manufacturing has saved $800,000 and three years development time over a four-year period for Sheppard Air Force Base.
Stratasys FDM 3D printing enables extended customer service offering and streamlined supply chain with SIEMENS to efficiently produce custom one-off parts.
Siemens AG in Karlsruhe uses 3D printing to develop innovative automation solutions for the production environment
See how Siemens Mobility RRX Rail Service Center was designed to perfect digitalization for the rail and transport industry.
Silgan Plastics uses FDM 3D printed packaging models to reduce time to market for new spoonable zero-calorie sweetener by Cargill.
How to partner your school with local businesses.
Stratasys collaborates with Daihatsu Motor Company to create 3D printed customizable effect skins, allowing customers more design freedom.
Senior Engineering Consultant Dave Hayden discusses the steps involved in using Topology Optimization and Additive Manufacturing to save weight and cost.
Toymaker Smoby cultivates imaginative playtime with the help of 3D printing to create toys with high detail with low cost and high efficiency.
Solaxis Ingenious Manufacturing created an automotive assembly jig with 3D printing, cutting weight and improving accuracy.
3D printing offers fast, cost-savings solutions in design and manufacturing custom solutions for service provider Solidify Technology Sdn Bhd.
Stratasys Soluble Cores Functional Testing.
Spring SRL, founded as a concept development and prototyping house uses 3D printing to streamlined manufacturing and increase flexibility.
SSL cuts lead time for customized composite tooling by embracing 3D printing and reduces the expense and time-consuming process of traditional methods.
STARBASE Minnesota and Dimension Rocket Elementary students use 3D printing to take their design skills to new heights, building rockets to Mars.
Sterilization of FDM-Manufactured Parts.
Discover how the world's leading manufacturers are driving production improvements and efficiency benefits from additive manufacturing.
Join us for the 3D Learning Center for Educators Webinar to learn how Stratasys makes it easy to teach with our 3D learning center content.
Smart. Scalable. Reliable. That’s what’s next in 3D manufacturing.
SUNY New Paltz smart lab connects businesses, students, and community through the SMART Lab, giving students hands-on learning with 3D printing.
Swift Engineering shaves off production by embracing 3D printing for sacrificial tooling applications using composite 3D printing materials.
Student design team, Tecnun Motorsport reduces carbon fiber intake manifold weight by 60% with Stratasys 3D printed soluble cores.
Don't make the mistake of confusing high resolution with accuracy.
SickKids uses 3d printed models that are anatomically accurate, can mimic various pathologies, and provide true haptic feedback for surgeons-in-training.
Additively manufactured composites offer advantages that include greater design flexibility, decreased costs and production efficiency. Learn more.
The Right Materials White Paper
Is the hare really the fastest?
When materials stability and long-term performance is paramount.
3D printing helps Thermos lead it's industry, allowing infinite prototype iterations until they reach their design goals and produce a finished product.
Thule uses additive manufacturing with Stratasys Nylon 12 Carbon Fiber to 3D print functional prototypes, save time, cost, and drive innovation.
Top Tactics to Secure Funding for your 3D Printer.
PolyJet and the latest FDM 3D printing technology working together for Toy State International Ltd. to speed their design to prototype timeline.
Accelerate innovation with 3D printing for the medical device industry to saving cost and time to market. Download our solution brief to learn more.
3D prototyping models enable the hospital to remove any faults in the mold design in the early phases, before cranial surgery and ensure better outcomes.
3D printing gives students real-world experience creating self-balancing scooter.
The Biomedical Device Center at University of Texas at Dallas uses 3D printing to design as system that will help detect sports concussions.
The University of Wollongong uses 3D printers to innovate its research into nano-scale materials and energy and medical bionics applications.
Experience how additive manufacturing drives success, helping you deliver faster and compete stronger from initial idea to production end use parts.
UPSA spurs pharmaceutical manufacturing innovation with 3D printing, saving on manufacturing costs and reducing their stock of parts.
Utah Trikes, producer of trikes, quads, and wheelchairs, rolls out cost-effective customization with FDM Nylon 12 Carbon Fiber. Download to learn more.
UTC Aerospace Systems improves production with 3D printing, manufacturing aerospace structural components, tools, jigs, and fixtures.
3D Printing enables VER to reclaim the coveted camera angle at sports games so that home viewers can continue to view games from the traditional angle.
Visual first helps The Chocolate Factory prevent bottlenecks with on-demand carbon fiber thermoplastic production parts. Download the case study.
Volvo Trucks' slashes time and cost of tool production with additive manufacturing, 3D printing many of their manufacturing and assembly tools.
Western Tool & Mold pairs existing resources with 3D printing.
This short webinar details what you can expect when considering buying an FDM 3D printer in the industrial grade category of 3D printers.
Is 3D Printing parts a viable alternative to injection molding?
3D printed punch speeds production of specialty low-volume Xerox printer to serve a market that needs features not found in high-volume printers.
Switching to FDM 3D printing to build thermoforming molds reduces cost from $1200 to $100 for Xerox Thermo, building multiple designs at less cost.
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