Frank Walther
Frank Walther
Prof. Dr.-Ing. | TU Dortmund University | Department of Materials Test Engineering (WPT)
Verified email at tu-dortmund.de - Homepage
Title
Cited by
Cited by
Year
Effects of defects in laser additive manufactured Ti-6Al-4V on fatigue properties
E Wycisk, A Solbach, S Siddique, D Herzog, F Walther, C Emmelmann
Physics Procedia 56, 371-378, 2014
2162014
Influence of process-induced microstructure and imperfections on mechanical properties of AlSi12 processed by selective laser melting
S Siddique, M Imran, E Wycisk, C Emmelmann, F Walther
Journal of Materials Processing Technology 221, 205-213, 2015
1702015
Computed tomography for characterization of fatigue performance of selective laser melted parts
S Siddique, M Imran, M Rauer, M Kaloudis, E Wycisk, C Emmelmann, ...
Materials & Design 83, 661-669, 2015
1562015
Deformation-induced martensitic transformation in metastable austenitic steels
M Smaga, F Walther, D Eifler
Materials Science and Engineering: A 483, 394-397, 2008
1432008
High cycle fatigue (HCF) performance of Ti-6Al-4V alloy processed by selective laser melting
E Wycisk, C Emmelmann, S Siddique, F Walther
Advanced materials research 816, 134-139, 2013
1222013
PHYBAL—A new method for lifetime prediction based on strain, temperature and electrical measurements
P Starke, F Walther, D Eifler
International Journal of Fatigue 28 (9), 1028-1036, 2006
1002006
Influence of process parameters on the quality of aluminium alloy EN AW 7075 using selective laser melting (SLM)
N Kaufmann, M Imran, TM Wischeropp, C Emmelmann, S Siddique, ...
Physics procedia 83, 918-926, 2016
762016
Very high cycle fatigue and fatigue crack propagation behavior of selective laser melted AlSi12 alloy
S Siddique, M Imran, F Walther
International Journal of Fatigue 94, 246-254, 2017
752017
Fatigue performance of laser additive manufactured Ti–6Al–4V in very high cycle fatigue regime up to 109 cycles
E Wycisk, S Siddique, D Herzog, F Walther, C Emmelmann
Frontiers in Materials 2, 72, 2015
662015
Microstructure-oriented fatigue assessment of construction materials and joints using short-time load increase procedure
F Walther
Materials Testing 56 (7-8), 519-527, 2014
552014
Cyclic deformation behavior of steels and light-metal alloys
F Walther, D Eifler
Materials Science and Engineering: A 468, 259-266, 2007
492007
Compression-creep response of magnesium alloy DieMag422 containing barium compared with the commercial creep-resistant alloys AE42 and MRI230D
H Dieringa, Y Huang, P Wittke, M Klein, F Walther, M Dikovits, C Poletti
Materials Science and Engineering: A 585, 430-438, 2013
462013
Fatigue assessment and fatigue life calculation of quenched and tempered SAE 4140 steel based on stress–strain hysteresis, temperature and electrical resistance measurements
P Starke, F Walther, D Eifler
Fatigue & Fracture of Engineering Materials & Structures 30 (11), 1044-1051, 2007
452007
Fatigue life calculation of SAE 1050 and SAE 1065 steel under random loading
F Walther, D Eifler
International Journal of Fatigue 29 (9-11), 1885-1892, 2007
442007
“PHYBAL” a Short‐Time Procedure for a Reliable Fatigue Life Calculation
P Starke, F Walther, D Eifler
Advanced Engineering Materials 12 (4), 276-282, 2010
422010
Fatigue assessment of laser additive manufactured AlSi12 eutectic alloy in the very high cycle fatigue (VHCF) range up to 1E9 cycles
S Siddique, M Imran, E Wycisk, C Emmelmann, F Walther
Materials Today: Proceedings 3 (9), 2853-2860, 2016
412016
Local cyclic deformation behavior and microstructure of railway wheel materials
F Walther, D Eifler
Materials Science and Engineering: A 387, 481-485, 2004
412004
Comparison of microstructure and mechanical properties of Scalmalloy® produced by selective laser melting and laser metal deposition
M Awd, J Tenkamp, M Hirtler, S Siddique, M Bambach, F Walther
Materials 11 (1), 17, 2018
392018
New fatigue life calculation method for quenched and tempered steel SAE 4140
P Starke, F Walther, D Eifler
Materials Science and Engineering: A 523 (1-2), 246-252, 2009
392009
Oxide dispersion-strengthened alloys generated by laser metal deposition of laser-generated nanoparticle-metal powder composites
C Doñate-Buendía, F Frömel, MB Wilms, R Streubel, J Tenkamp, ...
Materials & Design 154, 360-369, 2018
342018
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