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in biomedical engineering, mechanical engineering, or a related field. Experience in finite element modelling, biomechanics, or orthopaedic research is desirable. Strong analytical and problem-solving
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This project seeks to pinpoint cellular and molecular epigenetic mechanisms that drive age-related immune-senescence and inflammation, critical to the decline in immune function and ability
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substantial research component. The successful applicant will have an undergraduate or postgraduate degree in Materials Science, Chemistry, Chemical Engineering, Mechanical Engineering, or related areas
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Optimizing a 3D microfluidic IVD model to study cell responses to wear particles, refining culture conditions, and analysing cytotoxic and inflammatory mechanisms. Optimizing a 3D microfluidic IVD
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. 31/10/2028 31/10/2028 1 (one) 1 (one) Qualification in biomedical and biomechanical and mechanical engineering. Qualification in biomedical and biomechanical and mechanical engineering. Please submit
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, machine learning, and image processing techniques Strong candidates with electrical, mechanical, and biomedical engineering backgrounds can also apply. To be eligible for this scholarship, you must: Meet
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and reform options and investigate potential mechanisms, processes and organisations through which systematic change can ideally be influenced and achieved. As a means to address unsustainable resource
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(1). To be eligible for this scholarship you must: Be an Australian citizen or an Australian permanent resident who is eligible and has applied to be Australian citizen at the time of project
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The aim of this project is to describe ion conduction and activation/inactivation processes by employing molecular dynamics and statistical mechanical methods. The expected outcome is an improved
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polymer science. Problem solving skills/experience in applied chemistry, mechanical or electrical engineering. For further information, please contact A/Prof. Ken Chiang (E: Ken.Chiang@rmit.edu.au