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alloys produced from post-consumer scrap within the RACE project. The research will focus on understanding microstructure–property relationships and corrosion mechanisms in high-scrap aluminium alloys
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or physics. It is a condition of employment that the doctoral degree has been awarded. Experience from the finite-element method is a requirement. Experience from computational structural dynamics is a
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component may be incorporated to anticipate future sensory states and provide stabilizing priors. The anticipated outcome is a robust, predictive mapping and understanding system capable of sustaining
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educational background and completed research work. Your application must also contain a plan for your doctoral project which includes: project description plan for the training component progress plan funding
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doctor (ph.d.) in artistic development work at the Norwegian University of Science and Technology (NTNU) . The project description is a key element in evaluating the applicants. It is also highly important
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universities in the Nordic region. Both departments have strategic initiatives in sustainable metallurgy and applying material science and chemical engineering to extract and recycle valuable elements from
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economics and the Research Council of Norway. Its objectives are to advance research and post-graduate training in relevant fields. An ideal doctoral candidate at CAMP has a strong quantitative background and
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orbitronics. Such models can assist in developing new concepts in quantum transport where the key component is the orbital angular momentum of electrons rather than their charge or spin. The system will be
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concepts in quantum transport where the key component is the orbital angular momentum of electrons rather than their charge or spin. The system will be driven out of equilibrium via electric manipulation
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and applying material science and chemical engineering to extract and recycle valuable elements from secondary resources, including EV batteries. The selected candidate will join the Resources, Energy