Effects of Varied Oxygen Levels, Laser Powers, and Scanning Speeds on Manufactured Components by Laser-Based Powder Bed Fusion

Location

Statesboro Campus, Russell Union, Room 2084, Session 1

Document Type and Release Option

Thesis Presentation (Open Access)

Faculty Mentor

Dr. Drew Snelling

Faculty Mentor Email

dsnelling@georgiasouthern.edu

Presentation Year

2022

Start Date

22-4-2022 11:00 AM

End Date

22-4-2022 12:00 PM

Description

This thesis studies the effects of oxygen concentration, laser power, and scanning speed on L-PBF additively manufactured components. This will be accomplished by manufacturing and analyzing bead-on-plate trials. Increasing levels of oxygen, higher laser powers, and lower scanning speeds are expected to yield higher depth-to-width ratios.

Academic Unit

Allen E. Paulson College of Engineering and Computing

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Apr 22nd, 11:00 AM Apr 22nd, 12:00 PM

Effects of Varied Oxygen Levels, Laser Powers, and Scanning Speeds on Manufactured Components by Laser-Based Powder Bed Fusion

Statesboro Campus, Russell Union, Room 2084, Session 1

This thesis studies the effects of oxygen concentration, laser power, and scanning speed on L-PBF additively manufactured components. This will be accomplished by manufacturing and analyzing bead-on-plate trials. Increasing levels of oxygen, higher laser powers, and lower scanning speeds are expected to yield higher depth-to-width ratios.