To content
Scientific Assistant

M.Sc. Lukas Lücker

Main activities

Overview of research projects in group steels

Curriculum Vitae

Publications and presentations

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. - 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. - 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.

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.

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.

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. - 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.

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. - Download



List of all publications

5) Lücker, L. (V.); 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. (V.); 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. (V.); 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. (V.); 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. (V.):
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).


List of all presentations

Location & approach

The campus of TU Dort­mund University is located close to interstate junction Dort­mund West, where the Sauerlandlinie A45 (Frankfurt-Dort­mund) crosses the Ruhrschnellweg B1/A40. The best interstate exit to take from A45 is "Dort­mund-Eichlinghofen (6)" (closer to Campus Süd), and from B1/A40 "Dort­mund-Barop (44)" (closer to Campus Nord). Signs for the uni­ver­si­ty are located at both exits. Follow the signs towards Campus-Süd.

The Chair of Materials Test Engineering (WPT) is located in the "Maschinenbau III" building, which can be reached via entrance 41, where parking spaces are available. The secretariat is located on the third floor in E 03 - room 3.027.

For the approach to the TU Dort­mund University you will find the navigation on Google Maps.

Address for navigation devices:

Baroper Straße 303

D-44227 Dortmund


TU Dort­mund University has its own train station ("Dort­mund Uni­ver­si­tät"). From there, suburban trains (S-Bahn) leave for Dort­mund main station ("Dort­mund Hauptbahnhof") and Düsseldorf main station via the "Düsseldorf Airport Train Station" (take S-Bahn number 1). The uni­ver­si­ty is easily reached from Bochum, Essen, Mülheim an der Ruhr and Duisburg. From there, Campus Süd, where the Department of Materials Test Engineering (WPT) is located, can be reached in five minutes via the H-Bahn in the direction of "Eichlinghofen" or "Campus Süd".

After leaving the H-Bahn station "Campus Süd" cross the small street and go straight forward. Take the stairs (elevator on the left side).
Turn right directly under the canopy, go approximately 200 m, the Building "Maschinenbau III" is at the end of the path.

The office is located on the third floor in E03 - room 3.027.

Dortmund's public transport company DSW21 offers an interactive route network map with timetable information.

The AirportExpress is a fast and convenient means of transport from Dort­mund Airport (DTM) to Dort­mund Central Station, taking you there in little more than 20 minutes. From Dort­mund Central Station, you can continue to the uni­ver­si­ty campus by interurban railway (S-Bahn). A larger range of in­ter­na­tio­nal flight connections is offered at Düsseldorf Airport (DUS), which is about 60 kilometres away and can be directly reached by S-Bahn from the uni­ver­si­ty station.

The H-Bahn is one of the hallmarks of TU Dort­mund University. There are two stations on Campus Nord. One ("Dort­mund Uni­ver­si­tät S") is directly located at the suburban train stop, which connects the uni­ver­si­ty directly with the city of Dort­mund and the rest of the Ruhr Area. Also from this station, there are connections to the "Technologiepark" and (via Campus Süd) Eichlinghofen. The other station is located at the dining hall at Campus Nord and offers a direct connection to Campus Süd every five minutes.

Campus Weather

Weather Information
Open weather forecast