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Field
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the sustainability of the aerospace industry. The coatings will be manufactured using plasma spray and mini-combustion flame spray and examined in SEM/EBSD and tested in a burner rig and furnace thermal cycling. As a
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overall efficiency. The project also involves building a real-time simulation environment, supporting the development of a hardware-in-the-loop (HiL) test bench, and validating the system through field
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MRI, echocardiography, and CT. Another promising approach is the use of cardiac digital twins—mathematical models that simulate a patient’s heart to allow the design and in silico testing of novel
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Lead Supervisor name: Professor Katherine Appleton, email: k.appleton@bournemouth.ac.uk Project description Aims: This project aims to use a systematic approach to design, develop and test novel
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MRI, echocardiography, and CT. Another promising approach is the use of cardiac digital twins—mathematical models that simulate a patient’s heart to allow the design and in silico testing of novel
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establishing an understanding of "what normal looks like", these models will detect deviations from the norm and effectively identify potential anomalies during testing. You will explore both self-supervised
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for PFAS removal using rapid small-scale column testing (RSSCT). Evaluate the influence of contact time, media type, and multi-stage configurations on treatment efficacy. Characterise the scientific
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supplements combinations on relevant markers. Our project aims to examine effects of dietary supplements with anti-inflammatory and other bioactive effects on muscle and joint pain, alongside other aspects
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portfolio of work related to prioritisation in cancer care using decision analytic modelling that incorporates constraints such as diagnostic testing capacity and staff availability. Responsibilities will
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(primarily the UK) and informed by this, evaluate the effectiveness and cost-effectiveness of approaches to test and treat this population. This position presents a unique opportunity to join a