Folgen
David Schimbäck
David Schimbäck
Airbus Defence and Space
Bestätigte E-Mail-Adresse bei stud.unileoben.ac.at
Titel
Zitiert von
Zitiert von
Jahr
Alloy design strategy for microstructural-tailored scandium-modified aluminium alloys for additive manufacturing
D Schimbäck, P Mair, M Bärtl, F Palm, G Leichtfried, S Mayer, ...
Scripta Materialia 207, 114277, 2022
482022
Unique microstructure evolution of a novel Ti-modified Al-Cu alloy processed using laser powder bed fusion
P Mair, J Braun, L Kaserer, L March, D Schimbäck, I Letofsky-Papst, ...
Materials Today Communications 31, 103353, 2022
292022
Dependence of mechanical properties and microstructure on solidification onset temperature for Al2024–CaB6 alloys processed using laser powder bed fusion
P Mair, L Kaserer, J Braun, J Stajkovic, C Klein, D Schimbäck, L Perfler, ...
Materials Science and Engineering: A 833, 142552, 2022
292022
Laser powder bed fusion of an engineering intermetallic TiAl alloy
D Schimbäck, J Braun, G Leichtfried, H Clemens, S Mayer
Materials & Design 201, 109506, 2021
262021
An improved process scan strategy to obtain high-performance fatigue properties for Scalmalloy®
D Schimbäck, P Mair, L Kaserer, L Perfler, F Palm, G Leichtfried, ...
Materials & Design 224, 111410, 2022
142022
Metallography of intermetallic titanium aluminides–the (additive) manufacturing makes the difference
S Mayer, D Schimbäck, R Wartbichler, D Wimler, H Clemens
Practical Metallography 56 (9), 567-584, 2019
142019
Deformation and fatigue behaviour of additively manufactured Scalmalloy® with bimodal microstructure
D Schimbäck, L Kaserer, P Mair, F Palm, G Leichtfried, S Pogatscher, ...
International Journal of Fatigue 172, 107592, 2023
132023
New tailored high strength & ductile Al-alloys for laser powderbed fusion (LPB-F)
F Palm, M Bärtl, D Schimbäck, A Maier
11th CIRP Conference on photonic technologies [LANE 2020], 2020
92020
Examinations on Al-Mg-Sc-alloys after additive manufacturing
D Schimbäck, M Panzenböck, F Palm
Practical Metallography 56 (12), 797-812, 2019
62019
Advancements in metal additive manufacturing: In-situ heat treatment of aluminium alloys during the laser powder bed fusion process
D Schimbäck, L Kaserer, P Mair, MS Mohebbi, P Staron, V Maier-Kiener, ...
Materials Science and Engineering: A 905, 146102, 2024
42024
Microstructure and Mechanical Properties of Ti-6Al-4V In Situ Alloyed with 3 wt% Cr by Laser Powder Bed Fusion
VS Goettgens, L Weber, J Braun, L Kaserer, I Letofsky-Papst, S Mitsche, ...
Metals 14 (6), 715, 2024
2024
Aluminum alloy and methods for additive manufacturing of lightweight parts
D Schimbäck, F Palm
US Patent App. 18/255,246, 2024
2024
Method of recycling a structure or at least a portion thereof, and component for an aircraft or spacecraft
F Palm, D Schimbäck
US Patent App. 18/188,714, 2023
2023
Aluminium-nickel alloy for manufacturing a heat conducting part, such as a heat exchanger
D Schimbäck
US Patent App. 17/902,186, 2023
2023
Link between Microstructure and Fracture Mechanical Properties of Scandium-modified Aluminium Alloys
D Schimbäck
2023
Aluminium alloy and process for additive manufacture of lightweight components
F Palm, D Schimbäck
US Patent App. 17/535,154, 2022
2022
Materialographie intermetallischer Titanaluminide-die (additive) Fertigung macht den Unterschied
S Mayer, D Schimbäck, R Wartbichler, D Wimler, H Clemens
Praktische Metallographie Sonderband 53, 21-30, 2019
2019
A tailored TiAl alloy for the powder bed based laser additive manufacturing
D Schimbäck
2019
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–18