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. Elements such as copper and tin, which are the focus of this project, enrich at grain boundaries during thermo-mechanical processes used to achieve the desired steel microstructure. In this project, you will
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through microstructural characterization and comparing experimental observations with thermodynamic model predictions. Publishing your findings in peer-reviewed international journals and presenting
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characterization of advanced materials with unique properties for innovative engineering applications. We develop materials with precisely controlled nanoscale microstructures, enabling enhanced mechanical, magnetic
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comprise the metallurgical synthesis of metallic glasses and their microstructural characterization, the implementation of strategies for electrochemical surface modifications and advanced chemical coating
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wave attenuation for discriminating microstructural effects of thermal damage from moisture conditions in concrete, NDT & E International, 156, 2025. https://doi.org/10.1016/j.ndteint.2025.103473 [2] Y
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Aluminium Alloys We are seeking a highly motivated PhD candidate to join a project focused on understanding how the microstructural heterogeneity of recycled aluminium alloys affects their ductility and
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on physics-based computational modelling. Key activities include crystal-plasticity-based finite-element (CPFE) simulations, unit-cell and microstructure-resolved models, and the development of modelling
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microstructure, residual stress, and distortion of the deposited parts, all of which significantly impact their mechanical properties and overall performance. Consequently, accurately determining and effectively
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. Successful applicants will investigate the relationships between processing, microstructure, and properties of metals through combined macro- and micro-mechanical experimentation and finite-element modelling
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. The temperature field generated by the interaction between the arc and the material plays a critical role in determining the microstructure, residual stress, and distortion of the built parts—all of which