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powders of biocompatible superalloys (Cr-Co, Ni, Ti). Optimization of printing, debinding, and sintering parameters to maximize surface quality, dimensional accuracy, and mechanical properties. Development
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materials. Basic principles: atmospheric pressure jet plasma systems in multiple modes optimized for polymer coating synthesis. Professional Experience: Experience in functions similar to those described will
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be clinically tested in a small animal model. (Ref: PID2022-136961NB-I00)(HR25-00225). Main functions: Design, fabrication, and optimization of liquid-walled pumps (Qpump) capable of achieving
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equipment used to perform in-situ measurements during the development of the test to monitor the behavior of each device, and the optimization of the control software. 2. Analysis of the test results, which
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student will be mainly involved in developing the activities to achieve specific objectives of the project: To develop and optimize respiratory organoids derived from relevant host/reservoir animal species
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environments, specifically Computer Vision, Machine learning algorithms and methods for rock characterization, fragmentation prediction, and mining optimization. Specific Requirements Good academic and
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? No Offer Description Mission: Optimize and maintain the server-side architecture that powers an application, ensuring that it operates efficiently, securely, and at the scale needed. Functions to be
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artificial intelligence. Good knowledge of linear algebra and optimization tools. Good programming skills in Python and Matlab. Good written and oral communication skills in English. Specific Requirements
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valuable insights to help optimize device performance. Additionally, you will support collaborators by assisting with in-situ TEM measurements, facilitating cutting-edge research in sustainability and energy
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der Waals heterostructures. In particular, we will explore the optimal reading of magnetic information via non-linear effects. The project also foresees the integration of optimal working materials