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Discipline: Engineering & Technology, Materials Science, Mechanical Engineering Qualification: Doctor of Philosophy in Engineering (PhD) This project is a collaborative research effort between
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state-of-the-art two-photon lithography followed by conformal metal deposition, we will fabricate diamond-bond 3D ASI structures with controlled bond angles and lattice spacings. The magnetic microstate
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evolutionary mechanisms from adult cultures; (2) Knowledge produced as part of peer cultures helps communities adapt to social and ecological change. These will be empirically evaluated via experiments
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chemistry of polyol binders (HTPB) and isocyanates for optimization of formulation (pot life) and product mechanical properties for application in solid rocket propellants. Due to the confidential and
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tailored metallurgy-chemistry of porous structures, it still lacks surface finishing quality. This project will investigate the science behind surface finishing and the control of metal porosity engineered
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critical steps of gastrulation and early development. Creating iPSC lines with mutations in elements of the GAG biosynthetic machinery. Applying novel GAG analytical technologies to investigate how changes
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properties such as mechanical anisotropy, programmable shape change, auxeticity (some of these materials expand when you stretch them!), and stimuli-responsive behaviour. These properties make liquid crystal
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propellant space propulsion systems. A significant limiting factor of hybrid propulsion systems is the continuous change in surface area of the propellant grain during the combustion process. This changing O/F
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quantum mechanical effects are typically too expensive for simulations of disordered systems like liquids. This PhD will develop and deploy the tools needed high-fidelity simulations: machine learned
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This exciting project aims to experimentally and theoretically investigate the fundamental nucleation and heat transfer mechanisms in high-pressure flow boiling, in particular Critical Heat Flux