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microstructural characterization, property testing, and failure analysis on the LPBF-processed functional materials A detailed investigation on the post-processing necessity and thermal treatment of the LPBF
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technologies. This PhD project seeks to fill this gap by quantifying and comparing environmental performance across various management routes for SMR radioactive waste streams, thereby guiding technology
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project seeks to turn a problem into an opportunity, by developing digital tools and Life Cycle Assessment (LCA) models to (1) minimize waste and (2) accelerate circularity and sustainable resource use in
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modeling and computational tools, the project will establish process-structure-property relation- ships that connect LPBF parameters with microstructural evolution and mechanical performance. These insights
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to improve performance characteristics of low-value hardwoods by the densification process, thereby increasing their value. Sustainable chemical modifications and energy-efficient low-temperature methods will
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analysis by testing various in-situ applications such Energy Saving Devices. The collected data could be used to build a digital twin. The aim of this PhD project is to demonstrate clean maritime systems
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solutions for building energy management and in district energy networks, and toolkits of solutions for building and district performance assessment. The combination of computer science with the built
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., detailed research and time plan (laboratory work,data gathering, data analysis, interpretation of findings, writing up plan), and expected outcomes. The candidate can expand on the listed research questions
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and work closely with relevant stakeholders. The project is situated at the intersection of marketing, service management, digital transformation, and responsible management, offering insights for both