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A Robai Cyton robotic arm made with several Stratasys FDM-based 3D printed parts and custom FDM EOAT grippers

How 3D Printed EOATs are Helping Robotics Get a Grip in Manufacturing

A Robai Cyton robotic arm made with several Stratasys FDM-based 3D printed parts and custom FDM EOAT grippers
A Robai Cyton robotic arm made with several Stratasys FDM-based 3D printed parts and custom FDM EOAT grippers

Robotics are playing an expanding role in manufacturing, increasing efficiency and accuracy for a wide range of assembly and gripping function. But the robot is only as good as its EOAT, or end-of-arm tooling.

End of arm tools are the “hands” of robotic machinery that do the work of grasping, pushing and moving, which makes them an indispensable part of this manufacturing technology. Despite their value, they’re not necessarily easy or quick to make. They can often be bulky, expensive implements that take time to design and produce.

Durable FDM 3D printing technology offers a cost-effective and efficient alternative to the traditional manufacturing methods and materials used to produce EOATs. 3D printed EOATS are also easily customizable for each application and are capable of incorporating unique features like integral vacuum channels that are difficult, if not impossible, to produce on metal tools.

To learn more about how FDM EOATs can make a positive impact on your robotic operation, check out this new webinar: “Lighter, Faster, Easier End of Arm Tooling with FDM.”

This post is also available in: German

Robert Levesque

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