Additive manufacturing of metallic components by selective electron beam melting—a review C Körner International Materials Reviews 61 (5), 361-377, 2016 | 1009 | 2016 |
Cellular Ti–6Al–4V structures with interconnected macro porosity for bone implants fabricated by selective electron beam melting P Heinl, L Müller, C Körner, RF Singer, FA Müller Acta biomaterialia 4 (5), 1536-1544, 2008 | 930 | 2008 |
Mesoscopic simulation of selective beam melting processes C Körner, E Attar, P Heinl Journal of Materials Processing Technology 211 (6), 978-987, 2011 | 507 | 2011 |
Multiscale modeling of powder bed–based additive manufacturing M Markl, C Körner Annual Review of Materials Research 46 (1), 93-123, 2016 | 409 | 2016 |
Defect generation and propagation mechanism during additive manufacturing by selective beam melting A Bauereiß, T Scharowsky, C Körner Journal of Materials Processing Technology 214 (11), 2522-2528, 2014 | 404 | 2014 |
Lattice Boltzmann model for free surface flow for modeling foaming C Körner, M Thies, T Hofmann, N Thürey, U Rüde Journal of statistical Physics 121, 179-196, 2005 | 362 | 2005 |
Cellular titanium by selective electron beam melting P Heinl, A Rottmair, C Körner, RF Singer Advanced Engineering Materials 9 (5), 360-364, 2007 | 339 | 2007 |
Fundamental consolidation mechanisms during selective beam melting of powders C Körner, A Bauereiß, E Attar Modelling and Simulation in Materials Science and Engineering 21 (8), 085011, 2013 | 321 | 2013 |
Grain structure evolution in Inconel 718 during selective electron beam melting H Helmer, A Bauereiß, RF Singer, C Körner Materials Science and Engineering: A 668, 180-187, 2016 | 309 | 2016 |
Processing of metal foams—challenges and opportunities C Körner, RF Singer Advanced Engineering Materials 2 (4), 159-165, 2000 | 285 | 2000 |
Processing window and evaporation phenomena for Ti–6Al–4V produced by selective electron beam melting V Juechter, T Scharowsky, RF Singer, C Körner Acta Materialia 76, 252-258, 2014 | 279 | 2014 |
Selective electron beam melting of Ti–48Al–2Nb–2Cr: Microstructure and aluminium loss J Schwerdtfeger, C Körner Intermetallics 49, 29-35, 2014 | 255 | 2014 |
In vivo performance of selective electron beam‐melted Ti‐6Al‐4V structures S Ponader, C Von Wilmowsky, M Widenmayer, R Lutz, P Heinl, C Körner, ... Journal of Biomedical Materials Research Part A: An Official Journal of The …, 2010 | 240 | 2010 |
Compression‐compression fatigue of selective electron beam melted cellular titanium (Ti‐6Al‐4V) NW Hrabe, P Heinl, B Flinn, C Körner, RK Bordia Journal of Biomedical Materials Research Part B: Applied Biomaterials 99 (2 …, 2011 | 217 | 2011 |
A coupled Cellular Automaton–Lattice Boltzmann model for grain structure simulation during additive manufacturing A Rai, M Markl, C Körner Computational Materials Science 124, 37-48, 2016 | 216 | 2016 |
Design of auxetic structures via mathematical optimization J Schwerdtfeger, F Wein, G Leugering, RF Singer, C Körner, M Stingl, ... Advanced materials 23 (22), 2650, 2011 | 212 | 2011 |
Microstructure of the nickel-base superalloy CMSX-4 fabricated by selective electron beam melting M Ramsperger, RF Singer, C Körner Metallurgical and Materials Transactions A 47, 1469-1480, 2016 | 208 | 2016 |
Selective electron beam melting of cellular titanium: mechanical properties P Heinl, C Körner, RF Singer Advanced Engineering Materials 10 (9), 882-888, 2008 | 207 | 2008 |
Additive manufacturing of nickel-based superalloy Inconel 718 by selective electron beam melting: Processing window and microstructure HE Helmer, C Körner, RF Singer Journal of Materials Research 29 (17), 1987-1996, 2014 | 204 | 2014 |
Tailoring the grain structure of IN718 during selective electron beam melting C Körner, H Helmer, A Bauereiß, RF Singer MATEC Web of Conferences 14, 08001, 2014 | 191 | 2014 |