Aerospace & Defense Technology - May 2022 - 42

Application Briefs
3D Printable Superalloy
Velo3D, Inc.
Campbell, CA
+ 1-408-610-3915
www.velo3d.com
V
elo3D, Inc., a company that specializes
in metal additive manufacturing
technology for mission-critical parts,
has qualified the nickel-based superalloy
powder Amperprint 0233 Haynes 282
for use in its Sapphire family of printers.
The powder was produced by Höganäs
AB - a specialist in metal powder production
- under license from Haynes
International, Inc., and is designed for high
creep strength, thermal stability, weldability,
and fabricability not commonly found in
other alloys. The material is ideal for high-temperature
structural applications like energy generation,
gas turbines, and space launch vehicles to build
parts like heat exchangers, combustors, nozzles, combustion
liners, rocket engines, and shrouded impellers.
APPLICATIONS
ADHESIVES for
SENSOR
Select compounds offer:
THERMAL CONDUCTIVITY
Up to 6.5 W/( m*K)
ELECTRICAL INSULATION
Volume resistivity >1014
14
ohm-cm
ELECTRICAL CONDUCTIVITY
Volume resistivity <0.001 ohm-cm
SENSOR
APPLICATIONS
EPOXIES & SILICONES
EPOXIES & SILICONES
The first
Sapphire printer
Hackensack, NJ 07601 USA ∙ +1.201.343.8983 ∙ main@masterbond.com
www.masterbond.com
42
Free Info at http://info.hotims.com/82321-794
utilizing the Amperprint
0233 Haynes 282 powder
will be operated by
Duncan Machine Products
(DMP), a contract
manufacturer based in
Duncan, Oklahoma.
The system will be the
seventh in DMP's fleet of Velo3D Sapphire printers.
Powdered nickel-based superalloys, like Amperprint 0233
Haynes 282, are often used to print parts for use in high-temperature
applications due to the alloy's resistance to cracking
and its ability to operate at near-melting-point temperatures.
This tolerance allows parts printed with the alloy to be used in
vacuum, plasma, and other demanding applications. Its high
weldability makes the powder ideal for parts in larger systems
because of its ability to be welded to other components.
Höganäs specializes in creating powders for additive manufacturing,
delivering products with consistent spherical shape,
tight control on chemistry, and enhanced flowability. The
powders are made using the purest materials with very precise
compositions of trace elements that give the metals their
unique properties.
Velo3D is one of the first additive manufacturing technology
companies to offer Amperprint 0233 Haynes 282 powder to
its customers. Many of Velo3D's customers use its end-to-end
solution to produce parts for use in aviation, energy, oil and
gas, space, and other high-performance applications, making
the powder a good fit for Velo3D's portfolio. In addition to
Amperprint 0233 Haynes 282 powder, metal powders qualified
to be printed with Velo3D's technology include Hastelloy
X®
, Inconel 718, aluminum F357, Ti 6Al-4V Grade 5, and several
additional materials.
For Free Info Visit http://info.hotims.com/82321-468
Aerospace & Defense Technology, May 2022
ADT Application Briefs 0522_1.indd 42
Intro
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Aerospace & Defense Technology - May 2022

Table of Contents for the Digital Edition of Aerospace & Defense Technology - May 2022

Aerospace & Defense Technology - May 2022 - Intro
Aerospace & Defense Technology - May 2022 - Cov 4
Aerospace & Defense Technology - May 2022 - Cov 1
Aerospace & Defense Technology - May 2022 - Cov 2
Aerospace & Defense Technology - May 2022 - 1
Aerospace & Defense Technology - May 2022 - 2
Aerospace & Defense Technology - May 2022 - 3
Aerospace & Defense Technology - May 2022 - 4
Aerospace & Defense Technology - May 2022 - 5
Aerospace & Defense Technology - May 2022 - 6
Aerospace & Defense Technology - May 2022 - 7
Aerospace & Defense Technology - May 2022 - 8
Aerospace & Defense Technology - May 2022 - 9
Aerospace & Defense Technology - May 2022 - 10
Aerospace & Defense Technology - May 2022 - 11
Aerospace & Defense Technology - May 2022 - 12
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Aerospace & Defense Technology - May 2022 - 14
Aerospace & Defense Technology - May 2022 - 15
Aerospace & Defense Technology - May 2022 - 16
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Aerospace & Defense Technology - May 2022 - 18
Aerospace & Defense Technology - May 2022 - 19
Aerospace & Defense Technology - May 2022 - 20
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Aerospace & Defense Technology - May 2022 - 40
Aerospace & Defense Technology - May 2022 - 41
Aerospace & Defense Technology - May 2022 - 42
Aerospace & Defense Technology - May 2022 - 43
Aerospace & Defense Technology - May 2022 - 44
Aerospace & Defense Technology - May 2022 - 45
Aerospace & Defense Technology - May 2022 - 46
Aerospace & Defense Technology - May 2022 - 47
Aerospace & Defense Technology - May 2022 - 48
Aerospace & Defense Technology - May 2022 - Cov 3
Aerospace & Defense Technology - May 2022 - Cov 4
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https://www.nxtbook.com/smg/techbriefs/23ADT09
https://www.nxtbook.com/smg/techbriefs/23ADT08
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https://www.nxtbook.com/smg/techbriefs/22ADT12
https://www.nxtbook.com/smg/techbriefs/22ADT10
https://www.nxtbook.com/smg/techbriefs/22ADT09
https://www.nxtbook.com/smg/techbriefs/22ADT08
https://www.nxtbook.com/smg/techbriefs/22ADT06
https://www.nxtbook.com/smg/techbriefs/22ADT05
https://www.nxtbook.com/smg/techbriefs/22ADT04
https://www.nxtbook.com/smg/techbriefs/22ADT02
https://www.nxtbook.com/smg/techbriefs/21ADT12
https://www.nxtbook.com/smg/techbriefs/21ADT10
https://www.nxtbook.com/smg/techbriefs/21ADT09
https://www.nxtbook.com/smg/techbriefs/21ADT08
https://www.nxtbook.com/smg/techbriefs/21ADT06
https://www.nxtbook.com/smg/techbriefs/21ADT05
https://www.nxtbook.com/smg/techbriefs/21ADT04
https://www.nxtbook.com/smg/techbriefs/21ADT02
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