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Term: Initially 1 year, renewable. Appointment Start Date: As early as February 2026, but flexible Group or Departmental Website: https://med.stanford.edu/bridge-lab.html (link is external) How to Submit
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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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for space and satellite applications. The project investigates how microstructural design in polycrystalline functional oxides, such as grain size, crystallographic orientation, and strain, can be used
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‘healing’ the thermoplastic matrix. The challenge of reuse is that blade materials vary based on several factors including microstructure, macrostructure, and loading history. This project directly aligns
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novel in-situ characterisation approach including surface-specific techniques, spectroscopic, and microstructural characterisation, to examine the chemistry and interactions at the interface of the oil
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properties, chemistry, physical, structural and microstructural properties. New compositions will be designed and characterized to improve the thermal behavior under cooling. Moreover, the activity will
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structure and phase purity using X-ray diffraction. Prepare samples for TEM using plasma FIB. Analyze the microstructure, interface sharpness and defect distributions using TEM. Correlate MBE growth
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regulation of menopause, it captures key microstructural and mechanical consequences of tissue degradation relevant to menopausal fragility. This ex-vivo model will be validated against control and post
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- Geological 3D modelling of basement architecture - Multi-scale deformation and microstructural analysis - Targeted petrochronological studies on magmatic and deformation events - Integration with regional
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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