Dr. Xi Luo Profile

Dr. Xi Luo

at Cambridge Technology A Novanta Co

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Proceedings Article | 24 February 2017 Paper

Galvanometer scanning technology for laser additive manufacturing

Xi Luo, Jin Li, Mark Lucas

Proceedings Volume 10095, 1009512 (2017) https://doi.org/10.1117/12.2252973

KEYWORDS: Laser applications, Additive manufacturing, Laser manufacturing, Laser scanners, 3D scanning, Laser sintering, Laser systems engineering, Stereolithography, Spatial light modulators, 3D printing, Laser marking, Modulation, Scanners, 3D modeling, Head

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A galvanometer laser beam scanning system is an essential element in many laser additive manufacturing (LAM) technologies including Stereolithography (SLA), Selective Laser Sintering (SLS) and Selective Laser Melting (SLM). Understanding the laser beam scanning techniques and recent innovations in this field will greatly benefit the 3D laser printing system integration and technology advance. One of the challenges to achieve high quality 3D printed parts is due to the non-uniform laser power density delivered on the materials caused by the acceleration and deceleration movements of the galvanometer at ends of the hatching and outlining patterns. One way to solve this problem is to modulate the laser power as the function of the scanning speed during the acceleration or deceleration periods. Another strategy is to maintain the constant scanning speed while accurately coordinating the laser on and off operation throughout the job. In this paper, we demonstrate the high speed, high accuracy and low drift digital scanning technology that incorporates both techniques to achieve uniform laser density with minimal additional process development. With the constant scanning speed method, the scanner not only delivers high quality and uniform results, but also a throughput increase of 23% on a typical LAM job, compared to that of the conventional control method that requires galvanometer acceleration and deceleration movements.

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