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Field
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that enable the accurate prediction of the CO2 uptake of cement-based materials during their service life. In line with the Fit-for-55 plan, Flanders aims to reduce CO₂ emissions, pushing the cement industry
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tools that enable the accurate prediction of the CO2 uptake of cement-based materials during their service life. In line with the Fit-for-55 plan, Flanders aims to reduce CO₂ emissions, pushing the cement
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. The cement industry, which alone accounts for around 5% of global CO2 emissions, is undergoing a profound transformation in line with the industry's decarbonization requirements. Low-carbon cements are based
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is seeking a Post-doctoral or more senior Researcher candidate with a strong background in the following areas: alternative cements (e.g., chemistry of calcium silicate and carbonate cements), physics
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the systematic use of natural resources. Using recycled cement from the deconstruction concrete is an extension of this approach. When used as a partial substitution for cement in cementitious materials
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properties through tuning of concentrations and types of viscosity modifiers and superplasticizers, deep learning modeling of parameters of cement composites. The project is realized at the Bydgoszcz
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research will combine innovations in brine-to-cement technologies with advances in low-carbon binders such as reactive magnesium oxide cement (RMC) and belite-calcium sulfoaluminate (BCSA) systems
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following areas: alternative cements (e.g., chemistry of calcium silicate and carbonate cements), physics of diffusion and carbonation, early-stage rheological characteristics, life cycle analysis, and design
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Decarbonising construction: Advanced spectroscopic approaches to understand nanostructural development and phase evolution in high-performance, low-carbon cements School of Chemical, Materials and
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the job funded through the EU Research Framework Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Video: https