Inside 3D Printing Conference Begins Next Week in Seoul – Get 10% OFF

Inside 3D Printing Seoul, which kicks off next week, is set to be the first 3D printing trade show in South Korea, as well as one of the largest events Inside 3D Printing has hosted to date.

Inside 3D Printing Seoul, which kicks off next week, is set to be the first 3D printing trade show in South Korea, as well as one of the largest events Inside 3D Printing has hosted to date.


Taking place June 12-13 at the Korea International Exhibition Center (KINTEX), the event will host a select group of knowledgeable speakers from a range of industries, including engineering, design, business, academia, investing, intellectual property, and more.

The event's keynotes will be presented by Daniel Thomsen, General Manager of Stratasys Korea Ltd., and Seok-Hwan You, Founder and CEO of ROKIT. Other conference speakers include Wim Michiels, CEO of Materialise Malaysia Sdn Bhd and Vice President Asia Pacific at Materialise NV; Yang Yihu, President and CEO of ESUN; Sungkwon Choi, Professor, Dept. of Industrial Design at Seoul University; Kang Min Hyuck, Founder and CEO of OpenCreators; and Emma Kwon, Business Development Management at Materialise N.V; among others.

Robotics Tomorrow has partnered with Inside 3D Printing Seoul to offer members 10% OFF full conference passes with code ROBO. Register now!
Can't make the conference? Visit inside3dprinting.com for all upcoming Inside 3D Printing show dates.

Featured Product

Piab’s Kenos KCS Gripper

Piab's Kenos KCS Gripper

Piab's Kenos KCS gripper enables a collaborative robot to handle just about anything at any time. Combining Piab's proprietary air-driven COAX vacuum technology with an easily replaceable technical foam that molds itself around any surface or shape, the gripper can be used to safely grip, lift and handle any object. Standard interface (ISO) adapters enable the whole unit to be attached to any cobot type on the market with a body made in a lightweight 3D printed material. Approved by Universal Robots as a UR+ end effector.