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Microstructure and Deformation Behavior of Additively Manufactured 17–4 Stainless Steel: Laser Powder Bed Fusion vs. Laser Powder Directed Energy Deposition
JOM
◽
10.1007/s11837-021-05032-y
◽
2021
◽
Author(s):
P. D. Nezhadfar
◽
Paul R. Gradl
◽
Shuai Shao
◽
Nima Shamsaei
Keyword(s):
Stainless Steel
◽
Deformation Behavior
◽
Energy Deposition
◽
Powder Bed Fusion
◽
Laser Powder Bed Fusion
◽
Powder Bed
◽
Directed Energy Deposition
◽
Directed Energy
Download Full-text
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References
Effect of nanoparticle additivation on the microstructure and microhardness of oxide dispersion strengthened steels produced by laser powder bed fusion and directed energy deposition
Procedia CIRP
◽
10.1016/j.procir.2020.09.009
◽
2020
◽
Vol 94
◽
pp. 41-45
Author(s):
C. Doñate-Buendia
◽
R. Streubel
◽
P. Kürnsteiner
◽
M.B. Wilms
◽
F. Stern
◽
...
Keyword(s):
Energy Deposition
◽
Oxide Dispersion Strengthened
◽
Oxide Dispersion
◽
Powder Bed Fusion
◽
Laser Powder Bed Fusion
◽
Powder Bed
◽
Directed Energy Deposition
◽
Directed Energy
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Experimental characterization of stainless steel 316L alloy fabricated with combined powder bed fusion and directed energy deposition
Welding in the World
◽
10.1007/s40194-021-01117-z
◽
2021
◽
Author(s):
Kumaran M
◽
Senthilkumar V
Keyword(s):
Stainless Steel
◽
Energy Deposition
◽
Powder Bed Fusion
◽
Experimental Characterization
◽
Stainless Steel 316L
◽
Powder Bed
◽
Directed Energy Deposition
◽
Directed Energy
Download Full-text
Investigating the residual stress in additive manufacturing of combined process in powder bed fusion and directed energy deposition
Materials Today Proceedings
◽
10.1016/j.matpr.2021.05.200
◽
2021
◽
Author(s):
M. Kumaran
◽
V. Senthilkumar
◽
C.T. Justus Panicker
◽
R. Shishir
Keyword(s):
Residual Stress
◽
Additive Manufacturing
◽
Energy Deposition
◽
Powder Bed Fusion
◽
Combined Process
◽
Powder Bed
◽
Directed Energy Deposition
◽
Directed Energy
Download Full-text
Development and Testing of 316L Stainless Steel Metal Additive Manufacturing Test Articles for Powder Bed Fusion and Directed Energy Deposition Processes
Structural Integrity of Additive Manufactured Parts
◽
10.1520/stp162020180109
◽
2020
◽
pp. 250-277
Author(s):
Jessica L. Coughlin
◽
Trevor G. Hicks
◽
Patrick S. Dougherty
◽
Steven A. Attanasio
Keyword(s):
Stainless Steel
◽
Additive Manufacturing
◽
Energy Deposition
◽
316L Stainless Steel
◽
Powder Bed Fusion
◽
Powder Bed
◽
Metal Additive Manufacturing
◽
Deposition Processes
◽
Directed Energy
◽
Metal Additive
Download Full-text
IHPC’s simulation platform for additive manufacturing: an integrated multiscale high-fidelity simulation of powder-bed fusion and directed energy deposition additive manufacturing
10.26226/morressier.612f6739bc981037241009b0
◽
2021
◽
Author(s):
Guglielmo Vastola
◽
Jakub Mikula
◽
Robert Laskowski
◽
Dai Ling
◽
Ding Wenjun
◽
...
Keyword(s):
Additive Manufacturing
◽
Energy Deposition
◽
High Fidelity
◽
Simulation Platform
◽
High Fidelity Simulation
◽
Powder Bed Fusion
◽
Powder Bed
◽
Directed Energy Deposition
◽
Directed Energy
Download Full-text
Additive Manufacturing and Hot-fire Testing of Bimetallic GRCop-84 and C-18150 Channel-Cooled Combustion Chambers Using Powder Bed Fusion and Inconel 625 Hybrid Directed Energy Deposition
AIAA Propulsion and Energy 2019 Forum
◽
10.2514/6.2019-4390
◽
2019
◽
Author(s):
Paul R. Gradl
◽
Christopher S. Protz
◽
Kevin Zagorski
◽
Vishal Doshi
◽
Hannah McCallum
Keyword(s):
Additive Manufacturing
◽
Energy Deposition
◽
Inconel 625
◽
Powder Bed Fusion
◽
Fire Testing
◽
Combustion Chambers
◽
Powder Bed
◽
Directed Energy Deposition
◽
Directed Energy
Download Full-text
In-Line Process Monitoring of Powder-Bed Fusion and Directed-Energy Deposition Processes
Additive Manufacturing Processes
◽
10.31399/asm.hb.v24.a0006564
◽
2020
◽
pp. 287-297
Author(s):
Thomas L. Starr
Keyword(s):
Process Monitoring
◽
Energy Deposition
◽
Powder Bed Fusion
◽
Powder Bed
◽
Directed Energy Deposition
◽
Line Process
◽
Deposition Processes
◽
Directed Energy
Download Full-text
Comparison of powder bed fusion and directed energy deposition for tailoring mechanical properties of traditionally brittle alloys
Manufacturing Letters
◽
10.1016/j.mfglet.2021.02.003
◽
2021
◽
Vol 28
◽
pp. 30-34
Author(s):
Tomas F. Babuska
◽
Brandon A. Krick
◽
Donald F. Susan
◽
Andrew B. Kustas
Keyword(s):
Mechanical Properties
◽
Energy Deposition
◽
Powder Bed Fusion
◽
Powder Bed
◽
Directed Energy Deposition
◽
Directed Energy
Download Full-text
Sensing for directed energy deposition and powder bed fusion additive manufacturing at Penn State University
10.1117/12.2217855
◽
2016
◽
Cited By ~ 2
Author(s):
Abdalla R. Nassar
◽
Edward W. Reutzel
◽
Stephen W. Brown
◽
John P. Morgan
◽
Jacob P. Morgan
◽
...
Keyword(s):
Additive Manufacturing
◽
Energy Deposition
◽
Powder Bed Fusion
◽
State University
◽
Powder Bed
◽
Directed Energy Deposition
◽
Penn State
◽
Directed Energy
Download Full-text
Modeling of solidification microstructure evolution in laser powder bed fusion fabricated 316L stainless steel using combined computational fluid dynamics and cellular automata
Additive Manufacturing
◽
10.1016/j.addma.2019.06.024
◽
2019
◽
Vol 28
◽
pp. 750-765
◽
Cited By ~ 4
Author(s):
Yi Zhang
◽
Jing Zhang
Keyword(s):
Fluid Dynamics
◽
Computational Fluid Dynamics
◽
Stainless Steel
◽
Cellular Automata
◽
Microstructure Evolution
◽
316L Stainless Steel
◽
Solidification Microstructure
◽
Powder Bed Fusion
◽
Laser Powder Bed Fusion
◽
Powder Bed
Download Full-text
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