Formlabs Webinar: Printing With Advanced Engineering Resins
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A Look Inside Advanced Engineering Resins
Formlabs hosted a webinar on July 31st, taking an in-depth look on SLA technology and the advanced printing with their engineering materials. In an effort to continue spreading the knowledge to consumers, Formlabs is providing the opportunity to receive the recording of their webinar by heading over to their registration form.

Why Print SLA?
One of the key advantages to printing with stereolithography (SLA) 3D printing is the exceptional surface quality. As desktop SLA becomes increasingly affordable and scalable, more engineers and product designers are making the switch from traditional forms of additive manufacturing. Desktop, laser-based, 3D printing allows for faster prototyping with extremely precise and accurate results.
Watch Kevin Gautier, channel application engineer at Formlabs, demonstrate a range of applications with their Engineering Resins and share examples from automotive and consumer technology companies. Learn about tolerances, precision, and geometric capabilities of their SLA printer, the Form 2, along with technical insight into how SLA can transform your product development process today.

Webinar Topics To Help Improve Your Printing
- How laser-based printing provides high accuracy, precision, and tolerances
- Advantages of SLA over fused deposition modeling (FDM) and digital light processing (DLP) technology
- 5 examples of companies using SLA printing for engineering applications
- How to build better jigs and fixtures and calculate the ROI of desktop 3D printing

Kevin Gautier, Formlabs
Kevin Gautier is a channel application engineer at Formlabs passionate about Digital Fabrication technologies. He trains Formlabs channel partners on new applications and materials, and works with several high profile accounts to demonstrate capabilities of SLA printing. He mentors a Formula SAE Team, and uses CAD, 3D Printing, and CNC machining to build projects ranging from composite molds to electric vehicles to robotic motion simulators.