Pignat's compact, benchtop Continuous Distillation trainer (DVI/100) allows students to operate a continuous distillation process. Expertly crafted glass components show the flow of fluid through the complete process in both liquid and gaseous phases. With an efficient startup time, steady-state operation can be reached in 20 minutes.
The full-color, multi-material Stratasys® J850™ TechStyle™ and J850™ Prime FabriX™ printers powered by 3DFashion™ technology boast the innovative capability of printing 3D designs directly onto fabric. With Stratasys printing materials, combinations of colors, transparency, and flexibility are possible all in one print on different textiles and flexible substrates.
The following sections describe tips, guidelines, and online resources for designers to start 3D printing using Stratasys technologies and materials. With this wealth of information and your experimentation, you will gain the knowledge and skills you need to achieve outstanding results.
Guidelines and Tips
- Tips for Getting Started
- Vector Designs
- Distance Between Elements
- Element Size
- Element Height
- Size Recommendations Table
- Color Assignment
- File Type Support
- Stratasys Online Resources
Printer performance and reliability directly impact your bottom line. Stratasys' F123 line of FDM 3D printers is the most accurate compared to various competitors and the fastest, with the least downtime. Confidently print more parts in less time with a Stratasys F123 series FDM 3D printer.
Industry Report: White Paper
Desktop and low-priced 3D printers may seem the logical choice to start with 3D printing. But it’s often the wrong choice because these 3D printers are typically not up to the task nor have the trusted reliability of FDM technology.
This white paper highlights a third-party head-to-head comparison and how each 3D printer fared. Curious to know how F123 Series FDM 3D printers stack up against these competitors?
Download this white paper, evaluate and learn how F123 Series out preforms it's competition.
PPSF/PPSU (polyphenylsulfone) material has the greatest heat and chemical resistance of all Fortus® materials - ideal for aerospace, automotive and medical applications. PPSF parts manufactured on Fortus 3D Printers are not only mechanically superior, but also dimensionally accurate, to better predict end-product performance. Users can also sterilize PPSF via steam autoclave, EtO sterilization, plasma sterilization, chemical sterilization and radiation*. PPSF gives you the ability to manufacture parts direct from digital files that are ideal for conceptual modeling, functional prototyping, manufacturing tools and production parts.
PPSF (polyphenylsulfone) is a high-temperature, high-strength, and chemically resistant FDM material. While ideal for demanding applications, the durability and chemical resistance make finishing PPSF parts with sandpaper or solvents difficult and time-consuming.
When smooth surfaces are needed, hand sanding or milling are the two options most often used. Resistant to abrasion, PPSF makes hand sanding a laborious task that can consume hours. While a finishing pass with a CNC mill can make short work of surface smoothing, it negates many of the advantages of the FDM process. To prepare for machining, time is needed for CAM programming and machine set-ups. Machining also requires that an operator oversees the process.
If PPSF is used to make tools or molds, there is a new and faster alternative for surface smoothing, thermoforming. A thin sheet of plastic is drawn onto the surface of the PPSF part. While it conforms to the part’s shape, the plastic sheet does not transfer the layer lines to the outer surface. To preserve the mechanical, thermal, and chemical advantages of PPSF, the thermoforming process uses sheets of plastic made from PEEK resin. Versus hand sanding, PEEK thermoforming can reduce lead time by 75 percent
and cost by 90 percent (table 1).
More reliable, more affordable, more productive rapid prototyping and manufacturing than ever before.
Stratasys' F123 Series 3D printers give designers, engineers, and educators access to affordable, industrial-grade 3D printing. Work faster through concept iterations and component verification. Make jigs, fixtures, and manufacturing tools faster, with strong, stiff materials. Increase productivity and reach your goals sooner with repeatable results.
30 years of expertise. One leader in FDM.
For manufacturers new to 3D printing and established factory floors alike, Stratasys FDM® 3D printers are the game-changing choice — allowing you to build strong, durable, and dimensionally stable prototypes, tools and production parts with industry-leading repeatability and reliability. Additionally, our experts are well-versed in many global manufacturing methods and ready to help you find ways to shave days off production cycles, meet industry demands and maximize throughput.
Make it with GrabCAD
GrabCAD Print™ simplifies the traditional 3D print preparation workflow and provides intelligence around printer technology so your team can get quality prints, faster.
GrabCAD Print Pro™ takes GrabCAD Print to the next level. It reduces the number of prints required to meet a design’s intent. It simplifies process definition and estimation, integrates to partner software and other systems, and automates tasks to optimize workflows.
Together, GrabCAD Print and GrabCAD Print Pro are the ideal solutions for your production and prototyping needs.
Expanding Applied Learning
Students Gain High-Demand Skills with 3D Printing
Dunwoody College of Technology (Dunwoody) was founded in Minneapolis, Minnesota, in 1914 to provide a rigorous, industry-focused technical education. As the region's oldest and only non-profit technical college, Dunwoody has garnered an international reputation for its successful approach.
Dunwoody incorporates hands-on, applied learning with 3D printing playing a crucial part in the curriculum. Students learn critical thinking and practical, real-world skills in high demand. “In the last three years, there has been a huge momentum increase in 3D printing at Dunwoody, and students want programs centered on it,” said E.J. Daigle, Dean of Robotics & Manufacturing at Dunwoody."
Complex Designs Fast
Deisgn Firm 3D Prints to Refine Ideas with Speed
At the Center for Advanced Design (CAD), a product development firm in Minnesota, USA, a team of design engineers specializes in creating complex surface geometry for the plastics industry. The agile team of six handles everything from industrial design concepts and digital sketching to assisting clients with implementation by building production tooling. Their ability to advance projects quickly keeps their specialized team very busy.
“We’ve carved a niche out for ourselves designing plastic components for customers in the power sports industry,” Jesse Hahne, partner at CAD, said. “Many of the larger companies we work for are very talented, but they move slower. When deadlines loom, they look to us to get their complex projects back on track.”
These tips and tricks are designed to help you create better and more stable parts using PLA materials on any of the Stratasys F123™ Series 3D Printer.
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Item Number:DVI/100 -
Item Number:255DAC Worldwide’s Control Valve Cutaway, .75"-1.5" (255) supports realistic classroom training in the operation, construction, and maintenance of a pneumatically-operated control valve used in industrial process systems. The complete internal configuration of the valve’s actuator and body is exposed and showcased through carefully-planned sectioning and color-coding. -
Item Number:255KDAC Worldwide's dissectible (255K) is a realistic, hands-on valve sample that supports realistic classroom training in the disassembly, inspection, and reassembly of a full-size industrial diaphragm-actuated control valve. -
Item Number:273-810DAC Worldwide’s Control Valve Positioner Cutaway (273-810) is a detailed, sectioned, professionally-crafted control valve positioner cutaway that depicts a common control valve positioner. -
Item Number:ABR/3000The regeneration process is observed on the second column, which is continuously fed. An energy‐saving heat exchanger is placed between the two columns to optimize energy usage. With this unit, students are able to study various control loops, determine mass balance, and process efficiency. The unit also includes a LabView monitoring system. -
Item Number:OTP-DCPignat's Controlled Distillation Unit (OTP-DC) is an automated, controlled, continuous distillation pilot plant. This industrial-scale unit allows students to study unit operations, maintenance, and process supervision. -
Item Number:839-PACDAC Worldwide’s Coupling Sample Board (839-PAC) is an introductory hands-on teaching aid designed to supplement courses in coupling selection and maintenance. It includes samples of eight industrial-quality couplings for users to learn to identify. -
Item Number:208-PACDAC Worldwide’s Coupling/Shaft Alignment Plus (208-PAC) is a heavy-duty, precision learning aid that allows for convenient, realistic training in shaft alignment. When paired with a variety of hands-on exercises, the training system creates a complete performance-based course in the maintenance of shaft alignment. -
Item Number:208-000DAC Worldwide’s Coupling/Shaft Alignment Trainer (208-000) is a heavy-duty, precision learning aid that allows for convenient, realistic training in shaft alignment. When paired with a variety of hands-on exercises, the training system creates a complete performance-based course in the maintenance of shaft alignment. -
Item Number:CSMThe CSM is an intelligent manufacturing system using the latest Industry 4.0 connected advanced manufacturing equipment and techniques to produce a promotional product you can be proud to have your name on.
