M.Sc. Lukas Lücker

• Verein Deutscher Ingenieure e.V. (VDI)

12) Güzel, D., Kaiser, T.; Lücker, L.; Baak, N.; Walther, F.; Menzel, A.:
Characterisation of damage by means of electrical measurements: Numerical predictions.
Proceedings in Applied Mathematics and Mechanics, (2023) 1-8. https://doi.org/10.1002/pamm.202300013 - Download

11) Lücker, L.; Walther, F.:
Direct current potential drop characterization of forming-induced pre-damage influence on bending fatigue behavior of 16MnCrS5.
Procedia Structural Integrity 46, (2023) 94-98. https://doi.org/10.1016/j.prostr.2023.06.016

10) Lingnau, L. A.; Lücker, L.; Walther, F.:
Resistometriebasierte Charakterisierung der umform- und ermüdungsinduzierten Schädigung im Einsatzstahl 16MnCrS5.
Werkstoffprüfung 2022 - Werkstoffe und Bauteile auf dem Prüfstand, Hrsg.: M. Zimmermann, ISBN 978-3-88355-430-3 (2022) 406-411.

9) Lücker, L.; Lingnau, L. A.; Walther, F.:
Non-destructive direct current potential drop assessment of forming-induced pre-damage in AISI 5115 steel.
Procedia Structural Integrity 42 (2022) 368-373. https://doi.org/10.1016/j.prostr.2022.12.046 - Download

8) Bill, T.; Acosta, R.; Boller, C.; Donnerbauer, K.; Lücker, L.; Walther, F.; Heckmann, K.; Sievers, J.; Schopf, T.; Weihe, S.; Starke, P.:
A short-time approach for fatigue life evaluation of AISI 347 steel for nuclear power energy applications.
Applied Sciences 11 (23), 11405 (2021) 1-19. https://doi.org/10.3390/app112311405 - Download

7) Acosta, R.; Heckmann, K.; Sievers, J.; Schopf, T.; Bill, T.; Starke, P.; Donnerbauer, K.; Lücker, L.; Walther, F.; Boller, C.:
Microstructure-based lifetime assessment of austenitic steel AISI 347 in view of fatigue, environmental conditions and NDT.
Applied Sciences 11 (23), 11214 (2021) 1-21. https://doi.org/10.3390/app112311214 - Download

6) Baak, N.; Hajavifard, R.; Lücker, L.; Rozo Vasquez, J.; Strodick, S.; Teschke, M.; Walther, F.:
Micromagnetic approaches for microstructure analysis and capability assessment.
Materials Characterization 178, 111189 (2021) 1-14. https://doi.org/10.1016/j.matchar.2021.111189

5) Heckmann, K.; Sievers, J.; Schopf, T.; Lücker, L.; Schmiedt-Kalenborn, A.; Walther, F.; Starke, P.; Acosta, R.; Boller, C.:
Correlation of load drop and crack initiation criteria in fatigue life experiments of metallic materials.
Engineering Fracture Mechanics 251, 107785 (2021) 1-14. https://doi.org/10.1016/j.engfracmech.2021.107785

4) Koch, A.; Bonhage, M.; Teschke, M.; Lücker, L.; Behrens, B.-A.; Walther, F.:
Electrical resistance-based fatigue assessment and capability prediction of extrudates from recycled field-assisted sintered EN AW-6082 aluminium chips.
Materials Characterization 169, 110644 (2020) 1-8. https://doi.org/10.1016/j.matchar.2020.110644

3) Teschke, M.; Rozo Vasquez, J.; Lücker, L.; Walther, F.:
Characterization of damage evolution on hot flat rolled mild steel sheets by means of micromagnetic parameters and fatigue strength determination.
Materials 13 (11), 2486 (2020) 1-19. https://doi.org/10.3390/ma13112486 - Download

2) Schmiedt, A.; Lücker, L.; Manka, M.; Tillmann, W.; Walther, F.:
Frequency-dependent fatigue and corrosion fatigue assessment of brazed AISI 304L/BNi-2 joints in air and synthetic exhaust gas condensate.
Fatigue and Fracture of Engineering Materials and Structures 41 (2018) 2338-2349. https://doi.org/10.1111/ffe.12902

1) Schmiedt, A.; Lücker, L.; Kolesnikov, A.G.; Plokhikh, A.; Walther, F.:
Production- and microstructure-based fatigue assessment of metallic AISI 304/430 multilayer materials produced by hot pack rolling.
Materials Testing 59, 2 (2017) 123-129. https://doi.org/ https://doi.org/10.3139/120.110976 - Download

Liste aller Publikationen

9) Lingnau, L. A. (Sp.); Lücker, L.; Heermant J.; Otto, J. L.; Macias Barrientos, M.; Walther F.:
Separierung von Schädigungsmechanismen durch 3D-Bildsegmentierung.
DVM/DGM-AG „In situ 2D und 3D Charakterisierung", Schwerte, 05.-06. Oct. (2023).

8) Lingnau, L. A. (Sp.); Lücker, L.; Walther, F.:
Resistometriebasierte Charakterisierung der umform- und ermüdungsinduzierten Schädigung im Einsatzstahl 16MnCrS5.
Werkstoffprüfung 2022, Dresden, 27.-28. Oct. (2022).

7) Lingnau, L. A. (Sp.); Lücker, L.; Walther, F.:
Resistometry-based characterization of forming and fatigue-induced damage in case-hardening steel AISI 5115.
MSE 2022, Materials Science and Engineering, Darmstadt, 27.-29. Sept. (2022).

6) Lücker, L. (Sp.); Lingnau, L. A.; Walther, F.:
Non-destructive direct current potential drop analysis of forming- and very high cycle fatigue-induced damage of AISI 5115 steel.
MSE 2022, Materials Science and Engineering, Darmstadt, 27.-29. Sept. (2022).

5) Lücker, L. (Sp.); Lingnau, L. A.; Walther, F.:
Non-destructive direct current potential drop assessment of forming-induced pre-damage of AISI 5115 steel.
ECF23 - 23rd European Conference on Fracture 2022, Funchal, Madeira, Portugal, 27. June-01. July (2022).

4) Lücker, L. (Sp.); Goodwin, Z.; Walther, F.:
Gleichstrombasierte Charakterisierung des Einflusses umforminduzierter Schädigung auf das 3-Punkt-Biege-Ermüdungsverhalten des Stahls 16MnCrS5.
DGM/DVM-AG Materialermüdung, Web-Konferenz, 06. Dez. (2021).

3) Lücker, L. (Sp.); Walther, F.:
Direct current potential drop characterization of forming-induced pre-damage influence on three-point bending fatigue behavior of 16MnCrS5.
ICSID2021, 5th International Conference on Structural Integrity and Durability, Web Conference, Croatia, 07.-10. Sept. (2021).

2) Lücker, L. (Sp.); Teschke, M.; Rozo Vasquez, J.; Walther, F.:
Characterization of forming-induced damage of hot flat rolled micro-alloyed steel by micromagnetic testing correlated with fatigue behavior.
MSE 2020, Materials Science and Engineering, Web Conference, 22.-25. Sept. (2020).

1) Schmiedt, A.; Lücker, L.; Walther, F. (Sp.):
Fatigue properties of multilayer material based on stainless steels and produced by hot pack rolling.
Composite-Expo 2016, 9th International Specialized Exhibition on Raw Materials, Equipment and Technologies for Composites' Producing, Moscow, Russia, 17.-19. Febr. (2016).

Liste aller Vorträge