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welded samples and subjected to stress-corrosion cracking tests. A Gleeble thermomechanical simulator could also produce coupons with microstructures matching specific weld zones. Advanced characterisation
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ways, mechanical properties test (such as tensile test, etc.) and some highly advanced microstructural characterisation such as SEM (Scanning electron microscope), XRD (X-ray diffraction) and TEM
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on the thermomechanical performance of W/V joints via these methods. Understanding the link between microstructure and properties is crucial for process optimisation and design integration. Project Scope: This PhD will
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models. The scientist will conduct research using machine learning and classical parameterization methods on data from ocean gliders equipped with microstructure turbulence sensors, turbulence resolving
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largely missing in the fusion community. The Project: This PhD project will evaluate the effect of high temperature, irradiation, high-heat flux and thermo-mechanical stress on microstructural, physical and
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/ double degree programme No Description/content The International Max Planck Research School links the Max Planck Institute of Microstructure Physics with the Martin Luther University Halle-Wittenberg and
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(Dr Jun Jiang) (2) In-situ formability, microstructure analysis and forming process optimization (Prof Li-Liang Wang) (3) Crystal plasticity modelling to understand how microstructural features caused
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titanium alloys. The research will involve: Alloy production via arc melting, hot rolling, and simulated forging trials Microstructural characterisation using electron microscopy (SEM & TEM), X-ray
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and the effects of disordered correlated microstructures on diffusion; iii) development of energy-based models and numerical simulations of hyperuniform assemblies; iv) development and application
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life, is subject to irradiation and operational loads causing susceptible microstructure prone to Intergranular Stress Corrosion Cracking (IGSCC). It is of vital importance to understand how clad