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of a suitable SMA microrobots layout Rapid prototyping (clean room technology, e.g., optical lithography, 3D printing, laser technology) Development, characterization and control of demonstrator variants
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prototyping (optical lithography, 3D printing, laser technology) Development, characterization and control of cooling demonstrator variants Simulation-based design optimization The IMT is equipped with an array
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well as electrical flow. • Prototyping of the identified structures via stereolithographic, 3D printing and textile techniques like tufting, machine-based embroidery techniques or non-interlaced 3D pre-forming
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well as electrical flow. Prototyping of the identified structures via stereolithographic, 3D printing and textile techniques like tufting, machine-based embroidery techniques or non-interlaced 3D pre-forming
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electrode structures. • Prototyping of the identified structures via stereolithographic 3D printing and advanced textile techniques. • Development of advanced imaging and characterization technologies (X-ray
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kinetic modeling Experience with (or willingness to learn) 3D modeling, CAD software, and 3D printing What We Offer: TV-L (E13, 67%) collective agreement ( Current TV-L pay table [pdf-Datei] ) A three-year
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the technology of 3D Additive Manufacturing in terms of spatial resolution, speed, scalability, and multi-material printing. The joint advances of Research Areas A and B will create a “technology push”. Building
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systems as intelligent biomaterials and biosensors Assembling cells into multicellular structures and tissues (e.g. 3D printing of cells) Interfacing biomolecular systems with solid-state technology