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theoretical tools for their description (C). Tasks for project RTG2861-A4 (Principal Investigator: Prof. Dr. Stefan Kaskel, Chair of Inorganic Chemistry I, Research area A): Research topic: Microstructured PCL
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theoretical tools for their description (C). Tasks for project RTG2861-A4 (Principal Investigator: Prof. Dr. Stefan Kaskel, Chair of Inorganic Chemistry I, Research area A): Research topic Microstructured PCL
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to learn, thriving in dynamic, fast-moving environment Strong Trading Interest and drive to develop a deep mental model of microstructure and market intuition By applying to this role, you will be
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activities Self-motivated and quick to learn, thriving in dynamic, fast-moving environment Strong Trading Interest and drive to develop a deep mental model of microstructure and market intuition By applying
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and defects, with unprecedented detail. Through this work, you will uncover the fundamental links between synthesis conditions, microstructure, and macroscopic properties of layered materials. Your
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subsurface layers of components and even transform their microstructure, potentially introducing additional defects. Thus, assessment of these effects on structural reliability and durability of systems
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microstructure to enhance durability under fusion-relevant conditions. • Investigate scalability, producing larger electrolyte components suitable for integration into future tritium extraction systems. The PhD
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; EPSRC Centre for Doctoral Training in Green Industrial Futures | Bath, England | United Kingdom | 30 days ago
symbiosis, through of co-location of several Breathaboard processes, enhancing both efficiency and sustainability. The PhD will focus on three key objectives: Investigate Microstructural and Chemical Changes
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and embrittlement by precisely optimizing additive manufacturing parameters. By combining experimental investigations, advanced microstructural analyses, and numerical simulations, a novel manufacturing
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compared with existing alloys. The properties of this alloy depend on careful control of the microstructure, in particular the second phase particles and recrystallization. The project aims to understand