When designing a new product, engineers can best predict its end performance by prototyping with a material as similar to it as possible. Fused Deposition Modeling (FDM) thermoplastics use the same types of raw materials found in injection molding - and that’s why 3D printing is a wise choice. You’ll learn the unique properties of each thermoplastic and find out how these aspects can help you choose the right material. Join us as we introduce nine FDM materials and the characteristics that make them ideal for everything from rapid prototyping to low-volume manufacturing.
Presented By: Fred Fisher, Director Business Development, Stratasys, Inc.
What you will learn:
• What thermoplastic is the best choice for your application
• How additive manufacturing technology works
• What makes each FDM thermoplastic unique
Who should attend:
• Design Engineers
• Product Designers
• Manufacturing Engineers
• Inventors/Entrepreneurs
• Technology Educators
• Design Engineers
• Product Designers
• Manufacturing Engineers
• Inventors/Entrepreneurs
• Technology Educators
About Additive Manufacturing Technologies:
Additive manufacturing technologies are also commonly known as "Rapid Prototyping" or "3D Printing" as well as other names. And, although they are still being used by design engineers for concept modeling and prototyping, that’s not all. Manufacturing engineers are now employing these technologies for various applications such as jigs, fixtures, check gauges, and even as a bridge-to-tooling and low-volume end-use parts.
Additive manufacturing technologies are also commonly known as "Rapid Prototyping" or "3D Printing" as well as other names. And, although they are still being used by design engineers for concept modeling and prototyping, that’s not all. Manufacturing engineers are now employing these technologies for various applications such as jigs, fixtures, check gauges, and even as a bridge-to-tooling and low-volume end-use parts.
To view the free 30 minute Webinar click here.
