Joél Schukraft M.Sc.
Phone: | 0821 / 598 - 69168 |
Fax: | 0821 / 598 - 69111 |
Email: | joel.schukraft@mrm.uni-augsburg.de |
Room: | 2016 (W) |
Address: | Am Technologiezentrum 8, 86159 Augsburg |
Curriculum Vitae
since 06/2019 PhD student at the Institute for Materials Resource Management, Augsburg University
07/2018-01/2019 Master Thesis at the Institute of Structures and Structural Technology, Department of
Ceramic Composite Structures, at the German Aerospace Center, Stuttgart
09/2016-12/2016 Internship at the "Departemento de Materiais e Tecnologia, FEG, UNESP", in Guaratinguetá,
in the state of Sao Paulo, Brazil
09/2013-04/2019 Study of „materials science and engineering“ at the Karlsruhe Institute of Technology
Research Projects
Production, characterization and modeling of interpenetrating metal-ceramic composites based on highly homogeneous foam structures
Publications
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 |
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 |
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 |