Porosity is an inherent attribute in selective laser melting (SLM) and profoundly degrades the build part quality and its performance. This study attempts to understand and characterize the keyhole pores formed during single-track scanning in SLM. First, 24 single tracks were generated using different line energy density (LED) levels, ranging from 0.1 J/mm to 0.98 J/mm, by varying the laser power and the scanning speed. The samples were then scanned by micro-computed tomography to measure keyhole pores and analyze the pore characteristics. The results show a general trend that the severity of the keyhole porosity increases with the increase of the LED with exceptions of certain patterns, implying important individual contributions from the parameters. Next, by keeping the LED constant in another set of experiments, different combinations of the power and the speed were tested to investigate the individual effect. Based on the results obtained, the laser power appears to have a greater effect than the scanning speed on both the pore number and the pore volume as well as the pore depth. For the same LED, the pore number and volume increase with increasing laser power until a certain critical level, beyond which, both the pore number and volume will decrease, if the power is further increased. For the LED of 0.32 J/mm, 0.4 J/mm, and 0.48 J/mm, the critical laser power that reverses the trend is about 132 W, 140 W, and 144 W, respectively.
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July 2019
Research-Article
A Study of Keyhole Porosity in Selective Laser Melting: Single-Track Scanning With Micro-CT Analysis
Subin Shrestha,
Subin Shrestha
1
J.B. Speed School of Engineering,
Louisville, KY 40292
e-mail: subin.shrestha@louisville.edu
University of Louisville
,Louisville, KY 40292
e-mail: subin.shrestha@louisville.edu
1Corresponding author.
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Thomas Starr,
Thomas Starr
J.B. Speed School of Engineering,
Louisville, KY 40292
e-mail: tom.starr@louisville.edu
University of Louisville
,Louisville, KY 40292
e-mail: tom.starr@louisville.edu
Search for other works by this author on:
Kevin Chou
Kevin Chou
J.B. Speed School of Engineering,
Louisville, KY 40292
e-mail: kevin.chou@louisville.edu
University of Louisville
,Louisville, KY 40292
e-mail: kevin.chou@louisville.edu
Search for other works by this author on:
Subin Shrestha
J.B. Speed School of Engineering,
Louisville, KY 40292
e-mail: subin.shrestha@louisville.edu
University of Louisville
,Louisville, KY 40292
e-mail: subin.shrestha@louisville.edu
Thomas Starr
J.B. Speed School of Engineering,
Louisville, KY 40292
e-mail: tom.starr@louisville.edu
University of Louisville
,Louisville, KY 40292
e-mail: tom.starr@louisville.edu
Kevin Chou
J.B. Speed School of Engineering,
Louisville, KY 40292
e-mail: kevin.chou@louisville.edu
University of Louisville
,Louisville, KY 40292
e-mail: kevin.chou@louisville.edu
1Corresponding author.
Manuscript received January 15, 2019; final manuscript received April 22, 2019; published online May 14, 2019. Assoc. Editor: Tugrul Ozel.
J. Manuf. Sci. Eng. Jul 2019, 141(7): 071004 (11 pages)
Published Online: May 14, 2019
Article history
Received:
January 15, 2019
Revision Received:
April 22, 2019
Accepted:
April 22, 2019
Citation
Shrestha, S., Starr, T., and Chou, K. (May 14, 2019). "A Study of Keyhole Porosity in Selective Laser Melting: Single-Track Scanning With Micro-CT Analysis." ASME. J. Manuf. Sci. Eng. July 2019; 141(7): 071004. https://doi.org/10.1115/1.4043622
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