electron beam freeform fabrication in the space environment · • secondary processing also...
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Electron Beam Freeform Fabrication in the Space Environment
Electron Beam Freeform Fabrication in the Space Environment
AeroMat 2007Baltimore, MD
June 25-28, 2007
Karen M. B. Taminger & Robert A. HafleyNASA Langley Research Center
https://ntrs.nasa.gov/search.jsp?R=20080013464 2018-07-01T11:48:02+00:00Z
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Outline• Background• Electron beam freeform
fabrication (EBF3) system• Microgravity test objectives • Effects of microgravity on
EBF3
• Summary
Outline• Background• Electron beam freeform
fabrication (EBF3) system• Microgravity test objectives • Effects of microgravity on
EBF3
• Summary
Electron Beam Freeform Fabrication in the Space Environment
Electron Beam Freeform Fabrication in the Space Environment
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Spare Parts for Long Duration Space MissionsSpare Parts for Long Duration Space Missions
• Future long duration human space missions will be challenged by mass and volume constraints for spare parts
• Use of solid freeform fabrication processes could reduce the need for pre-manufactured spares by generating parts as needed
• Electron beam deposition using wire feedstock offers high energy and feedstock efficiency
• Key issue to be investigated is the effect of microgravity on the process
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Electron Beam Freeform Fabrication (EBF3) Process Description
Electron Beam Freeform Fabrication (EBF3) Process Description
• Layer-additive process to build parts using CNC techniques
• Electron beam melts pool on substrate, metal wire added to buildup part
• Material properties similar to those of annealed wrought products
• ~100% dense, structural metallic parts produced directly from CAD file without molds, tooling, or machining
• Secondary processing also possible with reconfigured beam
• Layer-additive process to build parts using CNC techniques
• Electron beam melts pool on substrate, metal wire added to buildup part
• Material properties similar to those of annealed wrought products
• ~100% dense, structural metallic parts produced directly from CAD file without molds, tooling, or machining
• Secondary processing also possible with reconfigured beam
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Portable Electron Beam Freeform Fabrication System at NASA LaRC
Portable Electron Beam Freeform Fabrication System at NASA LaRC
Portable EBF3 system design:
– 3-5 kW, focusable EB gun
– 4-axis motion system with 12 in. x 12 in. x 8 in. build envelope
– 0.03-0.045 in. dia. wire feeder
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Electron Beam Freeform Fabrication in the Space Environment
Electron Beam Freeform Fabrication in the Space Environment
Objective:
– Demonstrate EBF3 process is possible in 0-g– Understand EBF3 process kinetics and driving forces in 0-g
environment for developing control system
Approach:
– Conduct ground based tests and simulated 0-g tests on portable EBF3 system
– Vary deposition parameters such as translation directions, standoff distance, wire feed rates to
– Compare results from ground-based tests and 0-g tests for consistency and differences in bead geometries and microstructures
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Effect of Gravity on Surface TensionEffect of Gravity on Surface Tension
Equivalent droplet volumesEquivalent droplet volumes1-g
surface tension
0-gsurface tension
• Body forces eliminated – surface tension dominates– Alteration of bead cross-section may affect surface topography
of finished part
– Influence on closed-loop control target values
• Possible influence on microstructure of solidified deposit
• Body forces eliminated – surface tension dominates– Alteration of bead cross-section may affect surface topography
of finished part
– Influence on closed-loop control target values
• Possible influence on microstructure of solidified deposit
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Effect of Deposit Height on Cooling PathEffect of Deposit Height on Cooling Path
• Many layers – cooling rate dominated by path through prior build– Slower cooling, deposit
temperature increases causing deposit width to increase
• Many layers – cooling rate dominated by path through prior build– Slower cooling, deposit
temperature increases causing deposit width to increase
• First layer – cooling rate dominated by path through substrate– Quick cooling
• First layer – cooling rate dominated by path through substrate– Quick cooling
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Microgravity Testing Aboard JSC’s C-9Microgravity Testing Aboard JSC’s C-9
• C-9 Capabilities– 10-2-g, Lunar-g, Martian-g
capability– 15-20 second duration for
10-2-g, longer for partial-g– 1.8-g during pullout– 40 parabolas per flight typical
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Typical Test Flight PlatesTypical Test Flight Plates
1-g plate 0-g plate
• Series of builds 1-4 layers high• Lines built in different directions (+/- X & Y)• No difference in deposit height & width
between 0-g and 1-g• Cooling paths are dominated by baseplate
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Direction and Height Trials for Process ControlWire Fed into Leading Edge of Molten Pool
Direction and Height Trials for Process ControlWire Fed into Leading Edge of Molten Pool
• Wire fed into leading edge is easiest to control• Standoff distance increasing slightly along length of deposit
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Direction and Height Trials for Process ControlWire Fed into Trailing Edge of Molten Pool
Direction and Height Trials for Process ControlWire Fed into Trailing Edge of Molten Pool
• Wire fed into trailing edge pushes deposit in front of wire tip• Standoff distance increasing slightly along length of deposit
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Direction and Height Trials for Process ControlWire Fed into Side of Molten Pool
Direction and Height Trials for Process ControlWire Fed into Side of Molten Pool
• Wire fed into side pushes deposit in front of wire tip• Standoff distance increasing slightly along length of deposit
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Effect of Wire Entry Direction into Molten PoolEffect of Wire Entry Direction into Molten Pool
• Wire entry direction into molten pool affects bead shape more in 0-g than in 1-g
• No clear trend in height with wire entry direction
Hei
ght,
mm
0.6
0.7
0.8
0.9
1.0
1.1
1.21-g Deposits0-g Deposits
Leading Trailing +X -X
Wire Entry Direction
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Microstructure of Single Layer EBF3 DepositsMicrostructure of Single Layer EBF3 Deposits
• Typical microstructure seen in EBF3 deposits• Fine grain cast aluminum structure
– Columnar grains nucleating from bottom of molten pool• No evidence of porosity
1-g deposit0-g deposit
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0-g Deposit with Incorrect Standoff DistanceChevron, Layer 1
0-g Deposit with Incorrect Standoff DistanceChevron, Layer 1
• Started too high off substrate, molten ball adheres to wire tip• Upon contact with plate, wetting forces overcome surface tension
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0-g Deposit with Incorrect Standoff DistanceChevron, Layer 2
0-g Deposit with Incorrect Standoff DistanceChevron, Layer 2
• Manual height correction between layers not large enough
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0-g Deposit with Incorrect Standoff DistanceChevron, Layer 6
0-g Deposit with Incorrect Standoff DistanceChevron, Layer 6
• After several more layers, height errors become cumulative
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0-g Deposit with Incorrect Standoff DistanceChevron, Layer 7
0-g Deposit with Incorrect Standoff DistanceChevron, Layer 7
• Balls forming in 0-g are larger than drips in 1-g• Size of molten balls depends on separation distance between
plate and wire tip
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0-g Deposit with Incorrect Standoff DistanceChevron, Layer 8
0-g Deposit with Incorrect Standoff DistanceChevron, Layer 8
• Attach/detach heights useful for developing height control• Maintaining correct distance more important to process
control in 0-g
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Successful Demonstration of EBF3 in 0-gCircle, Layers 1 & 2
Successful Demonstration of EBF3 in 0-gCircle, Layers 1 & 2
• Manual height correction helped maintain contiguous deposit
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Successful Demonstration of EBF3 in 0-gCircle, Layers 7 & 8
Successful Demonstration of EBF3 in 0-gCircle, Layers 7 & 8
• Process able to heal surface irregularity from initial ball• Process works well if correct distance maintained
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• Successfully demonstrated EBF3 deposition of 2219 Al in 0-g over range of processing conditions– translation speeds– wire feed rates– wire entrance angle with respect to translation direction
• Initial demonstrations showed deposit geometry is dominated by surface tension in 0-g and 1-g– very little difference in height and width between 0-g and 1-g
• Identified distance between wire tip and substrate and thermal input as critical variables to control– when correct, process operates well and heals surface irregularities
• Successfully demonstrated EBF3 deposition of 2219 Al in 0-g over range of processing conditions– translation speeds– wire feed rates– wire entrance angle with respect to translation direction
• Initial demonstrations showed deposit geometry is dominated by surface tension in 0-g and 1-g– very little difference in height and width between 0-g and 1-g
• Identified distance between wire tip and substrate and thermal input as critical variables to control– when correct, process operates well and heals surface irregularities
ConclusionsConclusions
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Future PlansFuture Plans
• 2nd and 3rd generation portable systems under development– Move towards space flight configuration– Reduce mass, size– Moveable gun inside vacuum chamber– Different positioning system configurations– Potential integration of machining and NDE functions
• Last week of microgravity flights (Sept. 2007)
– Welding trials– Height sensitivity tests– Closed loop control demo– Solid block– Repair strategies