Transcript Slide 1

Additive Manufacturing
Techniques for Dissimilar
Materials - VHPUAM
September 14, 2011
Josh George
Applications Engineer, Ultrasonics
Email: [email protected]
Phone: 614.688.5057
Overview
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Highlight UAM process
Very high-power UAM
system status
Current developments –
UAM bonding, smart
structures
New VHP research
platform
Ultrasonic Additive Manufacturing*
… a new technology – “UAM” creates net-shape solid metal parts using:
solid state ultrasonic metal welding and CNC contour milling
Transducer
Booster
Horn
‘Dummy’
Booster
Al Tape
Rotating Transducer,
Booster, Horn System
Al Base Plate
Anvil
* UAM – aka Ultrasonic Consolidation
… a bit more detail
US vibrations
from transducer
US horn – has
textured surface
to grip tape
US Weld
Welded tape
US vibrations
of ‘horn’
… detail …
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In practice, tapes are first laid side-by-side, and then built up layerby-layer to build a solid metal plate
Laying of tapes side-by-side, then
layer-by-layer to build a solid plate
Each tape layer staggered from one
below so seams do not line up. In
practice, there are no gaps between
adjacent tapes
Current Machine Status
9-kW Weld Module
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Materials – High power ability to weld Cu, Ni,
stainless steel
Part Size – Working envelope of 6- × 6- × 3-feet
tall
Speed – Welding speeds up to 400 in./minute
with integrated CNC machining at up to 600
in./minute (example: 6”x6”x6” at 150 in./minute
would take 33 hours)
Features
9-kW “Push – Pull”
Multi-axis, “Speed
Bump” feature
Machining
center with
automatic tool
changer
Tape feed system
accommodates
up to 12-in. sheet
Process, Operation
Fabrication
CAD Model
Machine Code
Example Products
Rapid Prototyping
Embedded Electronics
Metal Matrix Composites
Embedded Sensors
Thermal Management
Dissimilar Metal Laminates
Complex Geometry
Integrated Systems
Dissimilar Matrix Potential
Material pair proven
for ultrasonic welding
Material pair tested for
ultrasonic spot weld
Al Be
Al Alloys l l
Be Alloys l
Cu Alloys
 Process well suited to
dissimilar metals and
multi-material laminate
– No liquid phase metallurgical
incompatibilities
Cu Ge Au Fe Mg Mo
l l l l l l
l
l
l
l l l l
Ge
l
Au l l
Fe Alloys l
Mg Alloys l
Mo alloys l
Ni Alloys
Al
 Multiple metal foils can be
combined
 Fiberoptic, B, and SiC
fibers can be embedded
without deleterious
reactions with Al matrix
10
SiC fiber
Cu
Ni Pd Pt Si Ag Ta Sn Ti W
l l l l l l l l l
l
l l l
l l
l l
l
l l l l l
l l
l l l
l l
l l
l
l
l
l
l
l l
l l l
l
l l
Pd l
l l
Pt Alloys l l
l
l l
Si
l l
Ag Alloys l l
Ta Alloys l
l l
Sn l
Ti Alloys l l
W Alloys l
Zr Alloys
Zr
l
l
l
l
l
l
l
UAM Bonding
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Extensive metallurgy studies; e.g., work with
3003 – evidence of recrystallization as
bonding mechanism (a) and (b); heat buildup
causes more extensive effect at top.
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Materials investigated:
110 Cu (>99.0% Cu), hard
condition
3003 Al, H18 (strain-hardened)
6061 Al, H18 (strain-hardened)
304L SS (annealed)
Original interface
Metallurgy
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Peak temperatures < 0.5T melt
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Extensive increase in interface stored
energy
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Local formation of nano-grain
colonies.
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12
Plastic-flow morphology
SEM
100 µm
OIM
Bulk Tape
Bond Area
Smart Materials, Structures
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Early embedding observations
Has led development of Adaptive Metal Matrix SMA
Composites
300 μm
0.003-in.-Diameter NiTi Wire (400×)
254-μm-Thick NiTi Ribbon
1000 μm
2- × 76-μm-Diameter NiTi Wires
100 μm
4- × 100-μm-Diameter NiTi Wires
100 μm
381-μm-Diameter NiTi Wire
Application – Dimensionally Stable
NiTi/Al Composites
 Aluminum alloys have a high CTE
(25.1 ppm/oC)
 Thermally induced contraction of
embedded NiTi can offset the
thermal strain of the Al matrix
 NiTi/Al composites could maintain
dimensional tolerances over an
expanded temperature range
Strain vs. Temperature for Sample 3
Next Steps
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New Commercial Entity to Commercialize
─ Fabrisonic LLC
─ Based in Columbus, OH
─ Selling Machines and UAM Parts
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University/Lab User Group
─ Stimulate further research in UAM
Research Platform
Specifications
 2500-lb load
 4.5- or 9-kW power
 20 ×12 × 6 in.
 200 ipm
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Available Fall 2011
Questions?
Josh George
Applications Engineer, Ultrasonics
E-mail: [email protected]
Phone: 614.688.5057