Bereich: Focus Area B
Project B 04
Project B 05
Project B 06
M. Sc. Oliver Boolakee
as PhD student at the research group of Prof. De Lorenzis he was couple the LB fluid and thermal code with a solid mechanics model to predict residual stresses.
M. Sc. Gido Dielemans
is a doctoral researcher at the TT Professorship for Digital Fabrication within TUM. With background in structural design and engineering, he will develop strategies for using mobile robotic systems performing extrusion-based AM on construction sites. Fundamentally, this work is interdisciplinary, and he therefore strives for a high degree of collaboration within, but not limited to, the TRR277.
Prof. Dr. sc. ETH Kathrin Dörfler
leads the scientific staff in the conception and execution of the research, and in questions of validation of the proposed methods. She is also responsible for the coordination of the cooperating research projects in the TRR 277. She is the Co-Spokesperson of the TRR 277. Dörfler supports Kloft as contact person for the DFG, in general public relation matters and also in representing the TRR 277 externally. Internally, Dörfler assists Kloft in the coordination between the research projects, as well as in the decisions on the financing of research tasks in the TRR 277.
M. Sc. Hannes Eichler
is a structural engineer and doctoral researcher at the TUB Institute for Structural Design (ITE). He is responsible for Project A10 where he is researching on Sprayed Earth Additive Manufacturing (SEAM). This includes general investigations on earthen constructions as well as development of the SEAM process and the optimization of material-process interactions. Within the project, he will carry out experimental studies and systematically evaluate the data in order to determine the key parameters of the SEAM process. In addition, he will design and investigate suitable applications in the context of construction in collaboration with other sub-projects.
M. Sc. Virama Ekanayaka
is a doctoral researcher at the IWF. He will be developing finite element models to be used in additive manufacturing. He will lead the implementation of mathematical approaches for model order reduction and work on system sensorization. He will frequently publish the results achieved within the community.
