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build the sustainable companies and societies of the future. Hydrogen storage consortium: Three Ph.D. students and one postdoctoral researcher will work in a multidisciplinary project with focus on Lined
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, machine elements and solid mechanics). This recruitment is connected to the Wallenberg Initiative Materials Science for Sustainability (WISE, wise-materials.org). WISE, funded by the Knut and Alice
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of the Division of Dynamics are very broad, from several courses at bachelor level on mechanics and solid mechanics to masters' level courses such as finite element methods, rigid body dynamics, structural dynamics
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analyses (using finite elements) of geotechnical problems in field scale, in particular coupled flow-deformation analyses Ability to read and understand Swedish Contract terms Full-time temporary employment
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on mechanics and solid mechanics to masters' level courses such as finite element methods, rigid body dynamics, structural dynamics, and structural dynamics control. The aim of the Division is to be
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formulation and implementation at element level Experience in numerical analyses (using finite elements) of geotechnical problems in field scale, in particular coupled flow-deformation analyses Ability to read
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candidates who will graduate soon). Proficiency in Matlab or Python, as well as commercial finite element analysis software. Excellent written and oral communication skills in English. Ability to work
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methods (e.g., FEM), and multibody dynamics. Proficiency in Matlab or Python, as well as experience with commercial finite element and/or multibody dynamics software. Strong written and oral
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verifying and debugging their accuracy and reliability today is challenging due to rounding errors and limitations of current tools. One aspect that this project focuses on is accuracy of finite-precision
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building elements. This PhD project provides an opportunity to creatively bridge architectural design, digital technologies and sustainability science, contributing to global research for a resource