Additive manufacturing continues to be an asset in developing products in many industries due to the quick turnaround for creating prototypes which saves both time and money. Universities are also using additive manufacturing in the classroom to better prepare students for their future careers. We've looked at several schools and institutions that are using this technology to create a culture of innovation and accountability where students can explore their design solutions through trial and error with physical prototypes to test.
FDM Technology Page 3
September 23, 2019
September 20, 2019
The Stratasys F123 Series printers have built-in essential safety features to ensure a safe printing process. 3D printers reach high temperatures and have moving gears which have the potential to burn someone. The Stratasys F123 Series is designed to limit the risk of injury through the safety features on the printers.
September 13, 2019
The Stratasys F123 Series demonstrates the capability to print high-quality designs because of its accuracy, reliability, durability and safety. It redefines the ability to produce, design and perform faster while getting the results you want. The Stratasys F123 Series is designed to ensure you get the accurate results you need to match your print to your design.
September 6, 2019
The Stratasys F123 Series prints accurate, durable and repeatable parts with engineering grade and fast draft PLA material options. It’s a smart business move as it’s designed for the way you work. The Stratasys F123 Series boasts many advancements that make it a worthy replacement for those now dated machines that break down quickly.
August 30, 2019
Generally speaking, Fused Deposition Modeling or “FDM” technology (the kind that layers material from spools of filament) is the most common and widely accessible form of 3D printing being used today. Whether you're an absolute beginner to 3D printing or have been using FDM printers for years, it can get confusing when comparing printer options and how important they are to what you are trying to create. With all the different hardware configurations, material options and applications available, it's worth taking a closer look at some of the fundamental features found in consumer-level (or “hobbyist”) printers and those in industrial-grade 3D printers to better understand how either can achieve specific production goals.
August 1, 2019
Stratasys GrabCAD Print is a sophisticated 3D printing app that allows designers and engineers to prepare, schedule and monitor 3D printing jobs. Since its release, GrabCAD has continued to make exciting updates to this software and we will be updating you every other month on its new features. In this set of release notes, we will be looking at versions 1.29, 1.30 and the just-released 1.31.
July 22, 2019
Stratasys 3D printers offer two main technologies through which multi-color printing can be accomplished. PolyJet technology is the most widely known that allows you to 3D print multi-color, multi-material parts and is known for its detailed and realistic results. Surprisingly, many people do not know that single-print, multi-colored prints are also possible when using Fused Deposition Modeling (FDM) technology. Using Stratasys 3D printers and GrabCAD Print software, the process is actually very simple.
July 18, 2019
July 12, 2019
Within the past few decades, robotic arms have allowed the manufacturing industry to develop into the fast production entity it is today. First used in the automotive industry, robotic arms can be programmed to take on any task that calls for high repeatability and precision. Today, robotic arms are used in almost every industry imaginable: from medical, to agriculture, to electronics manufacturing- and additive manufacturing tools like 3D printing is making the technology even more accessible.
June 20, 2019
Stratasys ABS thermoplastic materials have been used primarily to create durable parts and prototypes. Specialty ABS materials take prototypes to a whole new level by making them functional. The increased strength, transparency and ability to be bio-compatible set these specialty ABS materials apart and allow prints to be closer to the final product. They are changing the game for many industries.
June 14, 2019
Congratulations, you just finished designing your CAD model! Now, what's the next step? Prototyping! It's the next phase in the design cycle that helps you mitigate and reduce errors and issues. Prototyping allows you to test your model for functionality and design features. It has become more affordable and accessible as this trend continues at a non-linear rate. This phase decreases the time to market and increases productivity. Newer enhancements offer a more functional prototype and ability to rapid manufacture. Let’s review several things that you can leverage today to help make your prototypes in an efficient and affordable way.
June 11, 2019
In our previous blog post, we walked through the process of setting up an airflow study over the front of the Thunder Roadster. We used SOLIDWORKS Flow Simulation to set up a computational fluid dynamic (CFD) analysis to verify that incoming air is adhering to the surface of the car and entering the hood scoop at racing speeds. With the results verified, the next step is to design new inlet components to route as much of that air to the engine as possible to improve performance.