(568f) Solids Metrics for Successful 3D Printing of Energetic Feedstocks
AIChE Annual Meeting
2019
2019 AIChE Annual Meeting
Particle Technology Forum
Additive Manufacturing of Energetics
Wednesday, November 13, 2019 - 5:15pm to 5:35pm
For a feedstock to function properly in a powder bed fusion 3D printer, it must be designed to meet several material characteristics. Some of the most important material properties include: powder flowability & cohesion, powder and roll friction, permeability, particle size & shape distribution (PSSD), triboelectric charging propensity, wetting characteristics, compaction characteristics and thermal softening point.
This paper presents select studies of developing feedstocks for PBF printing of energetic and other materials. Key attributes benchmarked against included powder flowability, aeration attributes, wetting behavior, spreadability, and fusion, as well as final part performance (bulk density, detonation, sensitivity, and part tolerances.)
[1] Ennis, B.J. et al. (2008) Section 21: Solids-Solids Operations & Processing. Perryâs Chemical Engineersâ Handbook. Perry, R. H., & Green, D. W. (eds.), New York: McGraw-Hill.
[2] Ennis, B.J. et al. (2017), HPC4Mfg Modeling of Powder Dynamics in Metal Additive Manufacturing, Austin, TX. Link for presentation: https://hpc4mfg.llnl.gov/pdfs/events/powder2017/Powder_Dynamics_EG_17oct...
[3] Ennis, B.J. et al. (2017). Navy SBIR Phase I and Phase II Awards. Development of Explosive Feedstock for Commercial-off-the-Shelf (COTS) 3D Printers. Link for award:https://www.navysbirprogram.com/NavySearch/Award/award.aspx?pk=869CC83B-... AA2527D51045
[4] "Chattanooga firm to help U.S. Navy figure out how to 3-D print explosives" (2017), T. Omarzu, Chattanooga Times Free Press. Story link:http://www.timesfreepress.com/news/business/aroundregion/story/2017/dec/... help-us-navy-figure-out-how-3-/458777/