Dr.-Ing. Joél Schukraft
Telefon: | 0821 / 598 - 69168 |
Fax: | 0821 / 598 - 69111 |
E-Mail: | joel.schukraft@mrm.uni-augsburgmrm.uni-augsburg.de () |
Raum: | 2011 (W) |
Adresse: | Am Technologiezentrum 8, 86159 Augsburg |
Lebenslauf
Seit 01/2024
|
Gruppenleiter „Prozesse“ am Lehrstuhl „Hybride Werkstoffe“, Institut für Materials Resource Management (MRM), Universität Augsburg |
07/2023-12/2023 | PostDoc und stellvertretender Gruppenleiter "Werkstoffe & Mechanik" |
2023 | Promotion zum Dr.-Ing. im Bereich Metall-Keramik Durchdringungsverbunde |
06/2019-06/2023 | Wissenschaftlicher Mitarbeiter am Institut für Materials Resource Management, Universität Augsburg |
07/2018-01/2019 |
Masterarbeit am Institut für Bauweisen und Strukturtechnologie, Abteilung Keramische Verbundstrukturen, am Deutschen Zentrum für Luft- und Raumfahrt, Stuttgart |
09/2016-12/2016 |
Auslandspraktikum am „Departemento de Materiais e Tecnologia, FEG, UNESP“, in Guaratinguetá, im Bundesstaat Sao Paulo, Brasilien |
09/2013-04/2019 | Studium der Materialwissenschaften und Werkstofftechnik am Karlsruher Institut für Technologie |
Forschungsschwerpunkte
- Entwicklung von Prozessrouten zur Darstellung hybrider Werkstoffe (insb. FVK-Metall-Hybrid)
- Integrative Prozessüberwachung und -regelung hybrider Herstellverfahren
- Prozesstechnische Darstellung und Charakterisierung von Durchdringungsverbundwerkstoffen (aus amorphen Metallen, keramischen und metallischen Werkstoffen)
- Metallische Infiltrations- und Gussverfahren
Publikationen
2025 |
Christoph Lohr, Anna Trauth, Joél Pascal Schukraft, S. Leher and Kay A. Weidenmann. 2025. Investigation on the recycling potential of additively manufactured carbon fiber reinforced PA 6.6. Composite Structures 352, 118683. DOI: 10.1016/j.compstruct.2024.118683 |
2023 |
Joél Schukraft, Christoph Lohr and Kay André Weidenmann. 2023. Approaches to X-ray CT evaluation of in-situ experiments on damage evolution in an interpenetrating metal-ceramic composite with residual porosity. Applied Composite Materials 30, 3, 815-831. DOI: 10.1007/s10443-023-10115-x |
Joél Schukraft, Dominik Horny, Frederik Siegmund, Katrin Schulz and Kay André Weidenmann. 2023. Experimental and numerical investigation of the thermal properties and related microstructural influences of an interpenetrating metal ceramic composite at elevated temperatures. Thermochimica Acta 726, 179557. DOI: 10.1016/j.tca.2023.179557 |
Joél Schukraft. 2023. Herstellung und Charakterisierung eines Metall-Keramik-Durchdringungsverbunds. Dissertation, Universität Augsburg. . |
Philipp Christopher Morbitzer, Joél Schukraft, Christoph Lohr and Kay André Weidenmann. 2023. In-situ SEM investigation on the damage behavior of an interpenetrating metal ceramic composite. Composite Structures 321, 117278. DOI: 10.1016/j.compstruct.2023.117278 |
Dominik Horny, Joél Schukraft, Carolin Pieper, Kay André Weidenmann and Katrin Schulz. 2023. Numerical and experimental investigation on the self‐healing potential of interpenetrating metal–ceramic composites. Advanced Engineering Materials 25, 19, 2300259. DOI: 10.1002/adem.202300259 |
2022 |
Joél Pascal Schukraft, Dominik Horny, Katrin Schulz and Kay André Weidenmann. 2022. 3D modeling and experimental investigation on the damage behavior of an interpenetrating metal ceramic composite (IMCC) under compression. Materials Science and Engineering: A 844, 143147. DOI: 10.1016/j.msea.2022.143147 |
Joél Schukraft, C. Pieper, Christoph Lohr and Kay A. Weidenmann. 2022. Approaches on self-healing of an interpenetrating metal ceramic composite. In Anastasios Vassilopoulos, Véronique Michaud (Eds.). ECCM 2022 - Proceedings of the 20th European Conference on Composite Materials: Composites Meet Sustainability, Lausanne, Switzerland, June 26-30, 2022. EPFL Lausanne, Composite Construction Laboratory, Lausanne, 419-426 DOI: 10.5075/epfl-298799_978-2-9701614-0-0 |
Joél Schukraft, Jan Roßdeutscher, Frederik Siegmund and Kay A. Weidenmann. 2022. Thermal expansion behavior and elevated temperature elastic properties of an interpenetrating metal/ceramic composite. Thermochimica Acta 715, 179298. DOI: 10.1016/j.tca.2022.179298 |
2021 |
Joél Pascal Schukraft, Christoph Lohr and Kay A. Weidenmann. 2021. 2D and 3D in-situ mechanical testing of an interpenetrating metal ceramic composite consisting of a slurry-based ceramic foam and AlSi10Mg. Composite Structures 263, 113742. DOI: 10.1016/j.compstruct.2021.113742 |
2020 |
Joél Schukraft, Christoph Lohr and Kay A. Weidenmann. 2020. Mechanical characterization of an interpenetrating metal-matrix composite based on highly homogeneous ceramic foams. In J. M. Hausmann, M. Siebert, A. von Hehl, Kay A. Weidenmann (Eds.). Hybrid 2020 Materials and Structures, 28. – 29. April 2020, Karlsruhe, Germany. DGM - Deutsche Gesellschaft für Materialkunde e.V., Sankt Augustin, 33-39 |
Dominik Horny, Joél Pascal Schukraft, Kay A. Weidenmann and Katrin Schulz. 2020. Numerical and experimental characterization of elastic properties of a novel, highly homogeneous interpenetrating metal ceramic composite. Advanced Engineering Materials 22, 7, 1901556. DOI: 10.1002/adem.201901556 |
2019 |
Daniel Magalhães de Oliveira, Kelly Cristina Coelho de Carvalho Benini, Francisco Maciel Monticeli, Joél Pascal Schukraft, Anne Shayene Campos de Bomfim, Maria Odila Hilário Cioffi and Herman Jacobus Cornelis Voorwald. 2019. Permeability of untreated and atmospheric plasma treated coconut fiber mats. Materials Research Express 6, 9, 095323. DOI: 10.1088/2053-1591/ab3020 |