Simulation of powder transportation in directed energy deposition
Author:
Funder
National Natural Science Foundation of China
Publisher
Springer Science and Business Media LLC
Link
https://link.springer.com/content/pdf/10.1007/s00170-024-13851-x.pdf
Reference78 articles.
1. Liu P, Wang Z, Xiao YH, Horstemeyer MF, Cui XY, Chen L (2019) Insight into the mechanisms of columnar to equiaxed grain transition during metallic additive manufacturing. Additive Manuf 26:22–29
2. DebRoy T, Mukherjee T, Milewski JO, Elmer JW, Ribic B, Blecher JJ, Zhang W (2019) Scientific, technological and economic issues in metal printing and their solutions. Nat Mater 18(10):1026–1032
3. Busachi A, Erkoyuncu J, Colegrove P, Martina F, Watts C, Drake R (2017) A review of additive manufacturing technology and cost estimation techniques for the defence sector. CIRP J Manufact Sci Technol 19:117–128
4. Prasad HS, Brueckner F, Kaplan AFH (2020) Powder incorporation and spatter formation in high deposition rate blown powder directed energy deposition. Additive Manuf 35:101413
5. Ge P, Zhang Z, Tan ZJ, Hu CP, Zhao GZ, Guo X (2019) An integrated modeling of process-structure-property relationship in laser additive manufacturing of duplex titanium alloy. Int J Therm Sci 140:329–343
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