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like tufting, machine-based embroidery techniques or non-interlaced 3D pre-forming. Development of advanced imaging and characterization technologies (X-ray micro tomography, EPR imaging and spectroscopy
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like tufting, machine-based embroidery techniques or non-interlaced 3D pre-forming. Development of advanced imaging and characterization technologies (X-ray micro tomography, EPR imaging and spectroscopy
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and textile techniques like tufting, machine-based embroidery techniques or non-interlaced 3D pre-forming. Development of advanced imaging and characterization technologies (X-ray micro tomography, EPR
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. Development of advanced imaging and characterization technologies (X-ray micro tomography, EPR imaging and spectroscopy) to evaluate performance of electrodes and to map electrolyte chemical composition in
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and development of cutting-edge (bio)materials and technologies such as nano-/micro-sized delivery systems, hydrogel- and bacterial nanocellulose-based patches, biodegradable and biocompatible
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. Development of advanced imaging and characterization technologies (X-ray micro tomography, EPR imaging and spectroscopy) to evaluate performance of electrodes and to map electrolyte chemical composition in
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with thermal sensors and even micro Coriolis sensors on a single chip. In the new project “Flow and fluid composition sensing using integrated drag force flow sensors”, new sensor designs as
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. Preferred requirements: Preference will be given to candidates who meet the following criteria: Experience in research on the topic of material characterisation, namely advanced characterisation using Micro
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composites (year 2) -Composite damage analysis using, micro-tomography scan, Thermography, C-scan Scanning Electron Microscopy analysis (year 3) - Exploration of high/hyper-velocity impact resistant composites
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. Composite materials often exhibit low fracture toughness values, yet various experimental techniques can enhance the toughness of thermoset and thermoplastic composites. Typical approaches include surface