Dr.-Ing. Wilfried Liebig

  • Karlsruher Institut für Technologie (KIT)
    Institut für Angewandte Materialien - Werkstoffkunde (IAM-WK)
    Campus Süd
    Engelbert-Arnold-Straße 4
    76131 Karlsruhe

Lebenslauf

seit 07.2019 Leiter der Abteilung Hybride Werkstoffe und Leichtbau am Institut fürAngewandte Materialien - Werkstoffkunde des KIT
seit 10.2016 Leiter des Technologiekorridors am Fraunhofer-Institut für Chemische Technologie, Pfinztal (im Nebenamt)
08.2016 - 06.2019 Postdoc am Institut für Fahrzeugsystemtechnik - Institutsteil Leichtbautechnologie des KIT
11.2011 - 06.2016 Fachlicher Leiter der Abteilung Faserverbundwerkstoffe am Institut für Kunststoffe und Verbundwerkstoffe der Technischen Universität Hamburg-Harburg
01.2009 - 04.2015 Promotion an der Technischen Universität Hamburg-Harburg: Mikrostrukturelle Betrachtung des Einflusses von Poren auf die mechanischen Eigenschaften von faserverstärkten Kunststoffen
10.2002 - 12.2008 Hauptstudium: Maschinenbau (Fachrichtung: Leichtbau und Kunststofftechnik) an der Technischen Universität Dresden, Grundstudium: Maschinenwesen an der Universität Stuttgart

Publikationen können über ORCiD und Scopus eingesehen werden.

Forschungsfelder

  • Prozess-Struktur-Eigenschafts-Korrelationen für Verbundwerkstoffe und Werkstoffverbunde
  • Skalenübergreifende Charakterisierung der Materialeigenschaften von Kunststoffen, Faserverbundwerkstoffen und (hybriden) Werkstoffverbunden
  • Effects of Defects (fertigungs- und betriebsbedingte Defekte)
  • Ableitung des Werkstoffzustands bedingt durch äußere Umwelteinflüsse
  • Werkstoffnachhaltigkeit und Recycling

Veröffentlichungen


Effects of hybridization on the tension–tension fatigue behavior of continuous-discontinuous fiber-reinforced sheet molding compound composites
Bartkowiak, M.; Liebig, W. V.; Montesano, J.; Weidenmann, K. A.
2022. International Journal of Fatigue, 161, Article no: 106879. doi:10.1016/j.ijfatigue.2022.106879
Hybrid material additive manufacturing: interlocking interfaces for fused filament fabrication on laser powder bed fusion substrates
Englert, L.; Heuer, A.; Engelskirchen, M. K.; Frölich, F.; Dietrich, S.; Liebig, W. V.; Kärger, L.; Schulze, V.
2022. Virtual and Physical Prototyping, 1–20. doi:10.1080/17452759.2022.2048228
Study of material homogeneity in the long fiber thermoset injection molding process by image texture analysis
Maertens, R.; Schöttl, L.; Liebig, W. V.; Elsner, P.; Weidenmann, K. A.
2022. Advanced Manufacturing: Polymer and Composites Science, 8 (1), 22–32. doi:10.1080/20550340.2022.2033905
Determination of the penetration depth of ceramic blasting particles during composite peening
Seitz, M.; Liebig, W. V.; Weidenmann, K. A.
2022. Wear, 494-495, Art.-Nr.: 204246. doi:10.1016/j.wear.2022.204246
Fused filament fabrication: Comparison of methods for determining the interfacial strength of single welded tracks
Heuer, A.; Huether, J.; Liebig, W. V.; Elsner, P.
2021. Manufacturing Review, 8, 32. doi:10.1051/mfreview/2021031
Analytical modeling and investigation of constrained layer damping in hybrid laminates based on a unified plate formulation
Jackstadt, A.; Liebig, W. V.; Kärger, L.
2022. International journal of mechanical sciences, 216 (216), Art.Nr.: 106964. doi:10.1016/j.ijmecsci.2021.106964
Vegetable Oils as Sustainable Inks for Additive Manufacturing: A Comparative Study
Vazquez-Martel, C.; Becker, L.; Liebig, W. V.; Elsner, P.; Blasco, E.
2021. ACS Sustainable Chemistry and Engineering, 9 (49), 16840–16848. doi:10.1021/acssuschemeng.1c06784
Characterization of the Corrosion Resistance of Composite Peened Aluminum
Flachmann, M. L.; Seitz, M.; Liebig, W. V.; Weidenmann, K. A.
2021. Journal of Materials Engineering and Performance. doi:10.1007/s11665-021-06440-6
Wide Scale Characterization and Modeling of the Vibration and Damping Behavior of CFRP-Elastomer-Metal Laminates—Comparison and Discussion of Different Test Setups
Sessner, V.; Liebig, W. V.; Jackstadt, A.; Schmid, D.; Ehrig, T.; Holeczek, K.; Gräbner, N.; Kostka, P.; Wagner, U. von; Weidenmann, K. A.; Kärger, L.
2021. Applied composite materials. doi:10.1007/s10443-021-09934-7
Compounding of short fiber reinforced phenolic resin by using specific mechanical energy input as a process control parameter
Maertens, R.; Liebig, W. V.; Elsner, P.; Weidenmann, K. A.
2021. Journal of Composites Science, 5 (5), 127. doi:10.3390/jcs5050127
The use of the empirical crack orientation tensor to characterize the damage anisotropy
Schöttl, L.; Liebig, W. V.; Weidenmann, K. A.; Inal, K.; Elsner, P.
2021. Composites communications, 25, Article no: 100613. doi:10.1016/j.coco.2020.100613
Fiber shortening during injection molding of glass fiber-reinforced phenolic molding compounds: fiber length measurement method development and validation
Maertens, R.; Hees, A.; Schöttl, L.; Liebig, W.; Elsner, P.; Weidenmann, K. A.
2021. Polymer plastics technology and materials. doi:10.1080/25740881.2020.1867170
Investigations of the carbon fibre cross-sectional areas and their non-circularities by means of laser diffraction
Huether, J. J.; Liebig, W. V.
2020. IOP conference series / Materials science and engineering, 942 (1), Art.Nr. 012034. doi:10.1088/1757-899X/942/1/012034
Fatigue damage behavior of continuous-discontinuous fiber reinforced sheet molding compounds
Bartkowiak, M.; Liebig, W.; Weidenmann, K. A.
2020. Hybrid 2020 - Materials and Structures : 4th international conference : 28-29 April 2020, web-conference, Germany : proceedings. Ed.: editors: J. Hausmann, 71–77, Deutsche Gesellschaft für Materialkunde
Microstructure characterization of discontinuous fiber-reinforced polymers based on volumetric images: Fiber bundle tracking and weld line investigation
Schöttl, L.; Liebig, W. V.; Weidenmann, K. A.; Inal, K.; Elsner, P.
2020. 4th International Conference Hybrid 2020 Materials and Structures, 97–101, DGM
Crack characterization of discontinuous fiber-reinforced composites by using micro-computed tomography: Cyclic in-situ testing, crack segmentation and crack volume fraction
Schöttl, L.; Kolb, P.; Liebig, W. V.; Weidenmann, K. A.; Inal, K.; Elsner, P.
2020. Composites communications, 21, Art. Nr.: 100384. doi:10.1016/j.coco.2020.100384
Application of a mixed variational higher order plate theory towards understanding the deformation behavior of hybrid laminates
Jackstadt, A.; Liebig, W. V.; Sessner, V.; Weidenmann, K. A.; Kärger, L.
2019. Proceedings in applied mathematics and mechanics, 19 (1), e201900048. doi:10.1002/pamm.201900048
Materialmodellierung zur Untersuchung des Schwingungs‐ und Dämpfungsverhaltens von hybriden CFK‐Elastomer‐Metall‐Laminaten
Jackstadt, A.; Liebig, W. V.; Sessner, V.; Weidenmann, K. A.; Kärger, L.
2018, November 16. Sitzung des DGM Fachausschusses Polymerwerkstoffe Themenschwerpunkt Simulation, numerische Methoden und Kennwertermittlung (2018), Kassel, Deutschland, 15.–16. November 2018
A Multi-Layer Finite Shell Element based on the Generalized Unified Formulation for the Analysis of Hybrid Carbon Fiber Elastomer Metal Laminates
Jackstadt, A.; Liebig, W. V.; Kärger, L.
2019, Mai 8. 12th International Conference on Composite Science and Technology (2019), Sorrent, Italien, 8.–10. Mai 2019
A Multi-Scale Approach for the Virtual Characterization of Transversely Isotropic Viscoelastic Materials in the Frequency Domain
Jackstadt, A.; Liebig, W. V.; Galkin, S.; Sessner, V.; Weidenmann, K. A.; Kärger, L.
2018, Oktober 9. 8th KMM-VIN Industrial Workshop: Modelling of composite materials and composite coatings (IW8 2018), Freiburg im Breisgau, Deutschland, 9.–10. Oktober 2018
Photoelastic study of stresses in the vicinity of a unique void in a fibre-reinforced model composite under compression
Liebig, W. V.; Leopold, C.; Schulte, K.
2013. Composites science and technology, 84, 72–77. doi:10.1016/j.compscitech.2013.04.011
Influence of voids on the compressive failure behaviour of fibre-reinforced composites
Liebig, W. V.; Viets, C.; Schulte, K.; Fiedler, B.
2015. Composites science and technology, 117, 225–233. doi:10.1016/j.compscitech.2015.06.020
New test approach to determine the transverse tensile strength of CFRP with regard to the size effect
Liebig, W. V.; Leopold, C.; Hobbiebrunken, T.; Fiedler, B.
2016. Composites communications, 1, 54–59. doi:10.1016/j.coco.2016.09.003
Morphological influence of carbon nanofillers on the piezoresistive response of carbon nanoparticle/epoxy composites under mechanical load
Meeuw, H.; Viets, C.; Liebig, W. V.; Schulte, K.; Fiedler, B.
2016. European polymer journal, 85, 198–210. doi:10.1016/j.eurpolymj.2016.10.027
Fracture, failure and compression behaviour of a 3D interconnected carbon aerogel (Aerographite) epoxy composite
Chandrasekaran, S.; Liebig, W. V.; Mecklenburg, M.; Fiedler, B.; Smazna, D.; Adelung, R.; Schulte, K.
2016. Composites science and technology, 122, 50–58. doi:10.1016/j.compscitech.2015.11.002
Hierarchical analysis of the degradation of fibre-reinforced polymers under the presence of void imperfections
Liebig, W. V.; Schulte, K.; Fiedler, B.
2016. Philosophical transactions of the Royal Society of London / A, 374 (2071), 20150279. doi:10.1098/rsta.2015.0279
Size effect of graphene nanoparticle modified epoxy matrix
Leopold, C.; Liebig, W. V.; Wittich, H.; Fiedler, B.
2016. Composites science and technology, 134, 217–225. doi:10.1016/j.compscitech.2016.08.022
Frequency domain modelling of transversely isotropic viscoelastic fibre-reinforced plastics
Liebig, W. V.; Jackstadt, A.; Sessner, V.; Weidenmann, K. A.; Kärger, L.
2019. Composites science and technology, 180, 101–110. doi:10.1016/j.compscitech.2019.04.019
Damping Characterization of Hybrid Carbon Fiber Elastomer Metal Laminates using Experimental and Numerical Dynamic Mechanical Analysis
Sessner, V.; Jackstadt, A.; Liebig, W.; Kärger, L.; Weidenmann, K.
2019. Journal of composites science, 3 (1), 3. doi:10.3390/jcs3010003
Smart dispersion: Validation of OCT and impedance spectroscopy as solutions for in-situ dispersion analysis of CNP/EP-composites
Meeuw, H.; Körbelin, J.; Bernstorff, D. von; Augustin, T.; Liebig, W. V.; Fiedler, B.
2018. Materialia, 1, 185–197. doi:10.1016/j.mtla.2018.06.002
Numerical and experimental investigations of the damping behaviour of hybrid CFRP-elastomer-metal laminates
Liebig, W. V.; Sessner, V.; Weidenmann, K. A.; Kärger, L.
2018. Composite Structures, 202, 1109–1113. doi:10.1016/j.compstruct.2018.05.051
Comparison of analytical approaches predicting the compressive strength of fibre reinforced polymers
Leopold, C.; Harder, S.; Philipkowski, T.; Liebig, W. V.; Fiedler, B.
2018. Materials, 10 (12), Art. Nr.: 2517. doi:10.3390/ma11122517
Influence of carbon nanoparticle geometry in epoxy matrix on mechanical properties and failure initiation regarding the size effect
Leopold, C.; Augustin, T.; Schwebler, T.; Liebig, W. V.; Wittich, H.; Fiedler, B.
2017. 21st International Conference on Composite Materials, ICCM 2017; Xi’an; China; 20 August 2017 through 25 August 2017, ICCM
Compression fracture of CFRP laminates containing stress intensifications
Leopold, C.; Schütt, M.; Liebig, W. V.; Philipkowski, T.; Kürten, J.; Schulte, K.; Fiedler, B.
2017. Materials, 10 (9), Art.Nr.: 1039. doi:10.3390/ma10091039
Influence of carbon nanoparticle modification on the mechanical and electrical properties of epoxy in small volumes
Leopold, C.; Augustin, T.; Schwebler, T.; Lehmann, J.; Liebig, W. V.; Fiedler, B.
2017. Journal of colloid and interface science, 506, 620–632. doi:10.1016/j.jcis.2017.07.085