Udo Fritsching
Udo Fritsching
Leibniz Institute for Materials Engineering / Particles and Process Engineering - University Bremen
Bestätigte E-Mail-Adresse bei
Zitiert von
Zitiert von
Simulation of agglomeration in spray drying installations: the EDECAD project
REM Verdurmen, P Menn, J Ritzert, S Blei, GCS Nhumaio, ...
Drying technology 22 (6), 1403-1461, 2004
Spray simulation: modeling and numerical simulation of sprayforming metals
U Fritsching
Cambridge University Press, 2004
Engineering considerations on extrusion-based bioprinting: interactions of material behavior, mechanical forces and cells in the printing needle
J Emmermacher, D Spura, J Cziommer, D Kilian, T Wollborn, U Fritsching, ...
Biofabrication 12 (2), 025022, 2020
Synthesis of metal oxide nanoparticles in flame sprays: review on process technology, modeling, and diagnostics
F Meierhofer, U Fritsching
Energy & Fuels 35 (7), 5495-5537, 2021
Measurement of phase interaction in dispersed gas/particle two-phase flow
I Gillandt, U Fritsching, K Bauckhage
International Journal of Multiphase Flow 27 (8), 1313-1332, 2001
A mathematical model for cooling and rapid solidification of molten metal droplets
D Bergmann, U Fritsching, K Bauckhage
International journal of thermal sciences 39 (1), 53-62, 2000
Impact of process flow conditions on particle morphology in metal powder production via gas atomization
D Beckers, N Ellendt, U Fritsching, V Uhlenwinkel
Advanced Powder Technology 31 (1), 300-311, 2020
Droplet clustering in sprays
J Heinlein, U Fritsching
Experiments in fluids 40, 464-472, 2006
Process modeling pressure-swirl-gas-atomization for metal powder production
X Li, U Fritsching
Journal of Materials Processing Technology 239, 1-17, 2017
Nanoparticle evolution in flame spray pyrolysis—Process design via experimental and computational analysis
F Meierhofer, L Mädler, U Fritsching
AIChE Journal 66 (2), e16885, 2020
Screening Precursor–Solvent Combinations for Li4Ti5O12 Energy Storage Material Using Flame Spray Pyrolysis
F Meierhofer, H Li, M Gockeln, R Kun, T Grieb, A Rosenauer, U Fritsching, ...
ACS applied materials & interfaces 9 (43), 37760-37777, 2017
Fabrication and performance of Li4Ti5O12/C Li-ion battery electrodes using combined double flame spray pyrolysis and pressure-based lamination technique
M Gockeln, S Pokhrel, F Meierhofer, J Glenneberg, M Schowalter, ...
Journal of Power Sources 374, 97-106, 2018
Jet break up of liquid metal in twin fluid atomisation
S Markus, U Fritsching, K Bauckhage
Materials Science and Engineering: A 326 (1), 122-133, 2002
Solid–liquid separation in suspension atomization
B Mulhem, G Schulte, U Fritsching
Chemical engineering science 61 (8), 2582-2589, 2006
In-situ particle temperature, velocity and size measurements in the spray forming process
M Krauss, D Bergmann, U Fritsching, K Bauckhage
Materials Science and Engineering: A 326 (1), 154-164, 2002
Distortion minimization of disks for gear manufacture
E Brinksmeier, T Lübben, U Fritsching, C Cui, R Rentsch, J Sölter
International Journal of Machine Tools and Manufacture 51 (4), 331-338, 2011
Mathematical modeling of spray forming process of tubular preforms: Part 2. Heat transfer
C Cui, U Fritsching, A Schulz, Q Li
Acta materialia 53 (9), 2775-2784, 2005
Chemistry of iron nitrate-based precursor solutions for spray-flame synthesis
MFB Stodt, M Gonchikzhapov, T Kasper, U Fritsching, J Kiefer
Physical Chemistry Chemical Physics 21 (44), 24793-24801, 2019
Meat Sprays and Spray Deposition
H Henein, V Uhlenwinkel, U Fritsching
Coupled atomization and spray modelling in the spray forming process using open foam
R Gjesing, J Hattel, U Fritsching
Engineering Applications of Computational Fluid Mechanics 3 (4), 471-486, 2009
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20