Industrial Robot Trajectory Generation and Execution for 3D Printing using an ABB IRB 1200

Cavalcanti, Marcella; Costelha, Hugo; Neves, Carlos

http://hdl.handle.net/10400.8/14818

Use this identifier to reference this record.

Name:	Description:	Size:	Format:
Industrial Robot Trajectory Generation and Execution for 3D Printing using an ABB IRB 1200	Oral presentation: INOV.AM International Conference – Shaping Tomorrow, November 27 and 28, Braga, Portugal.	209.85 KB	Adobe PDF	Download

Send Feedback

Authors

Cavalcanti, Marcella

Costelha, Hugo

Neves, Carlos

Abstract(s)

The use of industrial robots in additive manufacturing processes has become increasingly important, offering more flexibility and the capability of multi-directional printing. This integration facilitates the production of more complex geometries, free from the limitations of small build volumes and support structures, opening new possibilities for innovation in advanced manufacturing systems. As the complexity of the printed structures grows, optimizing robot trajectories is essential to ensure high-quality results. This work presents a comparative analysis of robot trajectory generation and execution using ABB's 3D Printing Power Pack and generated RAPID coding in both simulated and real environments. The objective is to assess the use of the Power Pack in term of trajectory accuracy and efficiency, as well as how the simulated results compare with the real ones, considering the use-case of 3D printing. To support this analysis, a "test pattern" was designed to account for different trajectories, consisting of a single line extrusion path featuring long linear segments, corners, and curved sections. The path was converted into both G-code and RAPID code. The G-code was first validated on a standard 3D printer and then used as input in the 3D Printing Power Pack application to generate a RAPID program for the robot. Separately, another RAPID program was created manually to execute the same path, based on the G-code. Both programs were executed on a simulated environment in RobotStudio, and on an ABB IRB 1200 robot. Throughout the tests, the robot’s Tool Center Point (TCP) position was captured using ABB’s Externally Guided Motion (EGM) application.

Description

[Conference presentation]. INOV.AM International Conference – Shaping Tomorrow, November 27 and 28, Braga, Portugal: https://conference.inovam.pt/

Keywords

Robotics Additive Manufactuting, Industrial Robot Manipulator Robot Trajectory Generation and Execution

URI

http://hdl.handle.net/10400.8/14818

Citation

Cavalcanti, M., Costelha, H., & Neves, C. (2024). Industrial robot trajectory generation and execution for 3D printing using an ABB IRB 1200 [Conference presentation]. INOV.AM International Conference – Shaping Tomorrow, Braga, Portugal.