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Added value by hybrid additive manufacturing and advanced manufacturing approaches

 
: Seidel, André; Straubel, Ariane; Finaske, Thomas; Maiwald, Tim; Polenz, Stefan; Albert, Maximilian; Näsström, Jonas; Marquardt, Axel; Riede, Mirko; Lopez, Elena; Brückner, Frank; Beyer, Eckhard; Leyens, Christoph

:
Volltext urn:nbn:de:0011-n-4802192 (695 KByte PDF)
MD5 Fingerprint: 4b8cd233285231676a4df8f983829f11
Erstellt am: 30.11.2018


Laser Institute of America -LIA-:
ICALEO 2017, 36th International Congress on Applications of Lasers & Electro-Optics. Online resource : October 22-26, 2017
Orlando, Fla.: LIA, 2017
https://www.lia.org/store/product/2017-icaleo-conference-proceedings-electronic-access
ISBN: 978-1-940168-14-2
Paper 1104, 7 S.
International Congress on Applications of Lasers & Electro-Optics (ICALEO) <36, 2017, Atlanta/Ga.>
Englisch
Konferenzbeitrag, Elektronische Publikation
Fraunhofer IWS ()
hybrid machining; advanced machining; electron beam melting; laser additive manufacturing; laser metal deposition; gamma titanium aluminides; crack prevention; post machining

Abstract
In order to lead to a competitive advantage there is the need to carefully consider the pros and cons of state of the art manufacturing techniques. This is frequently carried out in a competitive manner but can also be done in a complementary way. This complementary approach is often used for the processing of difficult-to-machine materials with particular regard to high tech parts or components. Hybrid machining processes (HMPs) or - more general – advanced machining processes (AMPs) can be brought to the point that the results would not be possible with the individual constituent processes in isolation. Hence, the controlled interaction of process mechanisms and/or energy sources is frequently applied for a significant increase of the process performance and will be addressed within the present paper. A via Electron Beam Melting (EBM) manufactured gamma titanium aluminide (γ-TiAl) nozzle is extended and adapted. This is done via hybrid Laser Metal Deposition (LMD). The presented approach considers critical impacts like processing temperatures, temperature gradients and solidification conditions with particular regard to crucial material properties like the phenomena of lamellar interface cracking. Furthermore, selected destructive and non-destructive testing is performed in order to prove the material properties. Finally, the results will be evaluated. This will also be done in the perspective of other applications.

: http://publica.fraunhofer.de/dokumente/N-480219.html