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Field
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for wearable ultrasound systems, with emphasis on guided-wave propagation, dispersion behaviour, attenuation, and microstructure–property relationships relevant to long-term cardiovascular monitoring. 2
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thermal stresses. Moreover, being able to correlate these properties with each other and link them to the microstructure of the fibers is an essential element for the development of new materials. Objective
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degradation studies of solid oxide cells or related high-temperature electrochemical devices Have experience with materials or microstructural characterization techniques, e.g. SEM/EDX and XRD Have prior
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or burn-resistant testing demonstrated experience with conducting microstructural characterization techniques such as SEM, TEM, XRD, EDS, EBSD, FIB/SEM etc., as well as physico-mechanical characterization
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obtained no more than 2 years before the deadline for application. hands-on experience in combustion or burn-resistant testing demonstrated experience with conducting microstructural characterization
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control over microstructural features which leads to uncertainty over the resulting mechanical behavior of the scaffolds. This project, funded by Novo Nordisk Foundation, focuses on bioprinting and
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, microstructural and chemical analysis of materials analyzing the (electro)catalytic performance in various heterogenous organic reactions electrochemical characterization of carbon materials operando and in-situ
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-on experience in: Additive manufacturing of High Entropy alloys and Al-based alloys Powder characterization – Microstructure characterization (SEM, EBSD, TEM, XRD) Mechanical testing (tensile, fatigue, creep
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to correlate sensor data with process induced defects, microstructure, and material performance. Interact with industrial partners, other research organizations, and universities related to advanced
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(tensile, hardness, nanoindentation, metallography) and microstructural characterization techniques (SEM, EBSD, OM) Experience with metallographic specimen preparation Knowledge of mechanical properties