PD Dr. rer. nat. habil. Martin Gurka
Leibniz-Institut für Verbundwerkstoffe GmbH (IVW) (RPTU in Kaiserslautern), Rheinland-Pfälzische Technische Universität Kaiserslautern-Landau
- 0631/2017-369
- 0000-0002-6359-5756
Jungbluth, Julia; Bruns, Stefan; Schmidt, Catarina et al.
Interface failure analysis of embedded NiTi SMA wires using in situ high-resolution X-ray synchrotron tomographyMaterials Characterization. Bd. 205. Elsevier B.V. 2023 113345
Kaiser, Max; Gurka, Martin; Kunzler, Manuel
Airfoil trailing edge morphing based on modified SMAHC concept. Design, implementation, and experimental studiesActive and Passive Smart Structures and Integrated Systems XVI. Long Beach, California: SPIE. Digital Library 2022 120430Z
Kunzler, Manuel; Kaiser, Max; Fischer, Simon et al.
Design, construction and simulation of a shape memory alloy based morphing airfoil demonstrator based on the agonist-antagonist principleSociety of Photo-Optical Instrumentation Engineers (Hrsg). Active and Passive Smart Structures and Integrated Systems XVI. Long Beach, California, USA: SPIE. Digitl Library 2022 1204310
Popow, Vitalij; Vogtmann, Julia; Gurka, Martin
In-situ characterization of impact damage in carbon fibre reinforced polymers using infrared thermographyInfrared Physics & Technology. Bd. 122. Elsevier B.V. 2022 104074
Vogtmann, Julia; Klingler, Andreas; Rief, Thomas et al.
3D X-ray Microscopy as a Tool for in Depth Analysis of the Interfacial Interaction between a Single Carbon Fiber and an Epoxy Matrix after Mechanical LoadingJournal of Composites Science. Bd. 5. H. 5. MDPI AG 2021 121
Gapeeva, Anna; Vogtmann, Julia; Zeller-Plumhoff, Berit et al.
Electrochemical Surface Structuring for Strong SMA Wire–Polymer Interface AdhesionACS Applied Materials & Interfaces. Bd. 13. H. 18. American Chemical Society (ACS) 2021 S. 21924 - 21935
Walter, Rolf; Selzer, Ralf; Gurka, Martin et al.
Effect of filament quality, structure, and processing parameters on the properties of fused filament fabricated short fiber-reinforced thermoplasticsStructure and Properties of Additive Manufactured Polymer Components. Amsterdam: Elsevier 2020 S. 253 - 302
Popow, Vitalij; Gurka, Martin
Full factorial analysis of the accuracy of automated quantification of hidden defects in an anisotropic carbon fibre reinforced composite shell using pulse phase thermographyNDT & E International. Bd. 116. Elsevier Ltd. 2020 S. 102359
Kelkel, Benjamin; Popow, Vitalij; Gurka, Martin
Inline quantification and localization of transverse matrix cracking in cross-ply CFRP during quasi-static tensile testing by a joint event-based evaluation of acoustic emission and passive IR thermographyComposites Science and Technology. Bd. 190. Elsevier B.V. 2020 S. 108013
Nissle, Sebastian; Gurka, Martin
Characterization of active hybrid structures made of fiber reinforced composites and shape memory alloys—part A: characterization of the load transferSmart Materials and Structures. Bd. 28. H. 4. IOP Publishing 2019 S. 1 - 10 045002
Krooß, Tim; Gurka, Martin; Breuer, Ulf
Investigation of morphologies and tensile impact toughness of immiscible polyphenylene sulfide/polyether sulfone films and carbon fiber composites by quantitative optical methodsPolymer Composites. Bd. 40. H. 9. Wiley 2019 S. 3725 - 3736
Popow, Vitalij; Gurka, Martin
Passive Thermography for Detection of Damaging Events during Quasi-Static Tensile TestingKey Engineering Materials. Bd. 809. Trans Tech Publications, Ltd. 2019 S. 581 - 586
Popow, Vitalij; Gurka, Martin
Possibilities and limitations of passive and active thermography methods for investigation of composite materials using NDT simulationsSmart Structures and NDE for Energy Systems and Industry 4.0. San Diego: SPIE 2019
Kelkel, Benjamin; Argus, Philipp; Gurka, Martin
Scalable Monitoring System for the Localization of Damaging Events in Thin-Walled CFRP Structures Based on Acoustic Emission Analysis and Neural NetworksKey Engineering Materials. Bd. 809. Trans Tech Publications, Ltd. 2019 S. 401 - 406
Gurka, Martin
The physics of multifunctional materials: concepts, materials, applicationsLancaster, PA: DEStech Publications, Inc. 2019 179 S.
Muddassir, Muhammad; Duhovic, Miro; Gurka, Martin
A comprehensive study of metal-coated short carbon fibers, graphite particles, and hybrid fillers for induction heatingJournal of Thermoplastic Composite Materials. Bd. 33. H. 3. SAGE Publications 2018 S. 393 - 412
Nissle, S.; Kaiser, M.; Hübler, M. et al.
Adaptive vortex generators based on active hybrid composites: from idea to flight testCEAS Aeronautical Journal. Bd. 9. H. 4. Springer Science and Business Media LLC 2018 S. 661 - 670
Popow, Vitalij; Budesheim, Lars; Gurka, Martin
Comparison and evaluation of different processing algorithms for the nondestructive testing of fiber-reinforced plastics with pulse thermographyMaterials Testing. Bd. 60. H. 6. Carl Hanser Verlag 2018 S. 607 - 613
Walter, Rolf; Gebhard, Andreas; Gurka, Martin et al.
59. Tribologie-Fachtagung. Verbesserung der Gleitverschleißeigenschaften durch Schmierstoffzuführung in einer porösen, additiv gefertigten KunststoffstrukturGöttingen. 2018
Hübler, Moritz; Nissle, Sebastian; Gurka, Martin et al.
Fiber-reinforced polymers with integrated shape memory alloy actuation: an innovative actuation method for aerodynamic applicationsCEAS Aeronautical Journal. Bd. 7. H. 4. Springer Science and Business Media LLC 2016 S. 567 - 576
Heberger, Lukas; Kirsch, Benjamin; Donhauser, Tobias et al.
Influence of the Quality of Rivet Holes in Carbon-fiber-reinforced-polymer (CFRP) on the Connection StabilityProcedia Manufacturing. Bd. 6. Elsevier B.V. 2016 S. 140 - 147
Nissle, Sebastian; Hübler, Moritz; Gurka, Martin
Modellierung des elektrischen Widerstands von Formgedächtnislegierungen – Selfsensing für die Zustandsüberwachung von aktiven HybridverbundenMelz, Tobias ; Wiedemann, Martin (Hrsg). Smarte Strukturen und Systeme. Berlin u. a.: De Gruyter Oldenbourg 2016 S. 258 - 268
Gurka, Martin
Active hybrid structures made of shape memory alloys and fiber-reinforced compositesFriedrich, Klaus ; Breuer, Ulf (Hrsg). Multifunctionality of Polymer Composites. Oxford u. a.: Elsevier 2015 S. 727 - 751
Hübler, Moritz; Nissle, Sebastian; Gurka, Martin et al.
ASME 2015 Conference on Smart Materials, Adaptive Structures and Intelligent Systems. Aerodynamic Applications of SMA FRP Structures: An Active Airfoil, From Idea to Real HardwareVolume 2: Integrated System Design and Implementation; Structural Health Monitoring; Bioinspired Smart Materials and Systems; Energy Harvesting. Houston: American Society of Mechanical Engineers 2015
Krooß, Tim; Gurka, Martin; Van der Schueren, Lien et al.
Cost-Effective Microfibrillar Reinforced Composites for Lightweight ApplicationsMaterials Science Forum. Bd. 825-826. Trans Tech Publications, Ltd. 2015 S. 44 - 52
Hassinger, Irene; Gurka, Martin
Morphology of PA6 nanocomposites prepared by pressurized insertion of aqueous nanoparticle dispersionsNanocomposites. Bd. 1. H. 2. Informa UK Limited 2015 S. 63 - 70
Wirjadi, Oliver; Godehardt, Michael; Schladitz, Katja et al.
Characterization of multilayer structures in fiber reinforced polymer employing synchrotron and laboratory X-ray CTInternational Journal of Materials Research. Bd. 105. H. 7. Carl Hanser Verlag 2014 S. 645 - 654
Hübler, Moritz; Gurka, Martin; Breuer, Ulf P.
From attached shape memory alloy wires to integrated active elements, a small step? Impact of local effects on direct integration in fiber reinforced plasticsJournal of Composite Materials. Bd. 49. H. 15. SAGE Publications 2014 S. 1895 - 1905
Andrä, Heiko; Gurka, Martin; Kabel, Matthias et al.
Geometric and Mechanical Modeling of Fiber-Reinforced CompositesBernard, Dominique u. a. (Hrsg). The 2nd International Congress on 3D Materials Science : Congress Proceedings. Cham: Springer International Publishing 2014 S. 35 - 40
Schneider, F.; Kirsch, B.; Gurka, Martin et al.
Improved Quality of Drilled Holes in Laminated Carbon Fiber Reinforced Plastics via Laser-PreprocessingDenkena, Berend (Hrsg). New Production Technologies in Aerospace Industry : Proceedings of the 4th Machining Innovations Conference, Hannover, September 2013. Cham: Springer International Publishing 2013 S. 27 - 31 (Lecture Notes in Production Engineering)
Hübler, M.; Gurka, Martin; Schmeer, Sebastian et al.
Performance range of SMA actuator wires and SMA–FRP structure in terms of manufacturing, modeling and actuationSmart Materials and Structures. Bd. 22. H. 9. IOP Publishing 2013 S. 94002
Hübler, Moritz; Nissle, Sebastian; Gurka, Martin et al.
Smart Crash Management by Switching the Crash Behavior of Fiber-Reinforced Plastic (FRP) Energy Absorbers With Shape Memory Alloy (SMA) WiresVolume 1: Development and Characterization of Multifunctional Materials; Modeling, Simulation and Control of Adaptive Systems; Integrated System Design and Implementation. Snowbird: American Society of Mechanical Engineers 2013
Gurka, Martin; Hübler, Moritz; Schmeer, Sebastian et al.
Conference on Smart Materials, Adaptive Structures and Intelligent Systems (ASME 2012). Load-Initiated Two-Way Effect of Shape Memory Alloys in Composite Structures and a Phenomenological Modelling ApproachVolume 1: Development and Characterization of Multifunctional Materials; Modeling, Simulation and Control of Adaptive Systems; Structural Health Monitoring. Stone Mountain: American Society of Mechanical Engineers 2012
Gurka, Martin; Petričević, Raino; Schneider, Steffen et al.
Characterization of Step Response Time and Bandwidth of Electrorheological FluidsJournal of Intelligent Material Systems and Structures. Bd. 22. H. 15. SAGE Publications 2011 S. 1745 - 1748
Gurka, Martin; Johnston, L.; Petricevic, R.
New Electrorheological Fluids — Characteristics and Implementation in Industrial and Mobile ApplicationsJournal of Intelligent Material Systems and Structures. Bd. 21. H. 15. SAGE Publications 2010 S. 1531 - 1535
Gurka, Martin; Adams, D.; Johnston, L. et al.
New electrorheological fluids — characteristics and implementation in industrial and mobile applicationsJournal of Physics: Conference Series. Bd. 149. IOP Publishing 2009 S. 1 - 6
Eisert, F.; Gurka, Martin; Legant, A. et al.
Detection of Molecular Alignment in Confined FilmsScience. Bd. 287. H. 5452. American Association for the Advancement of Science (AAAS) 2000 S. 468 - 470