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during magma emplacement. These findings will inform a new generation of Finite Element computational models that seek to include the complex behaviour of rocks into volcano deformation models. You will
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framework exploiting the use of physical and geometrical conservation laws in a variety of spatial discretisation schemes (i.e. Finite Element, Finite Volume, Meshless). The resulting conservation-type
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Discipline: Engineering & Technology, Fluid Dynamics, Mechanical Engineering, Other Engineering Research area and project description: Droplets are ubiquitous in nature, industry, and our everyday
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experience in microstructural analyses. Familiarity with mechanical testing procedures and, ideally, experience in numerical simulation (e.g., finite element methods). Strong analytical skills, an independent
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models offer a powerful means to understand stroke mechanisms, predict treatment outcomes, and personalize patient care. By integrating numerical techniques like the finite element method and machine
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using asymptotic methods. Numerically solving the models using, for example, the finite element method. Collaborating with experimental researchers to validate and refine the modelling. Contributing
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skyscrapers, or improving the energy efficiency of mechanical systems, advanced control methods are at the heart of these challenges. Effective control mitigates vibrations, boosts performance, enhances energy
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treatments, and exposure to gaseous impurities. Using both experimental testing and finite element modelling, you’ll help develop practical guidelines to mitigate hydrogen embrittlement and enable safer, more
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/or dynamic analysis of mechanical/robotic systems •Ability to use finite element modelling and to simulate complex mechatronics •Ability to implement control and kinematics with hardware-in-the-loop
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dynamic analysis of mechanical/robotic systems Ability to use finite element modelling and to simulate complex mechatronics Ability to implement control and kinematics with hardware-in-the-loop Background