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diverse range of composites topics for many years via the Composites University Technology Centre (UTC). See https://www.bristol.ac.uk/composites/collaboration/utc/ for further details, including case
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the potential to decarbonise automotive and aerospace industries. Design of super-durable composite materials that can sustain harsh hydrogen environments is critical to achieving decarbonisation goals
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. The project will seek an understanding of the microstructural changes during machining of anisotropic, heterogeneous and semi-brittle composite materials for high temperature applications used in the latest
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Tailoring the Thermomechanical Properties of High Performance Aerospace & Automotive Composite Materials Department of Materials Science and Engineering PhD Research Project Self Funded Dr J Foreman
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related field. Expertise in composite materials and their behavior under different loading conditions. Experience with manufacturing techniques for composites (e.g., autoclave processing, additive
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research opportunity delves into the pioneering development of self-healing three-dimensional metal-composite hybrid materials. The innovative approach involves the utilization of through-thickness
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, including filtration, decontamination and manufacturing. For instance, resin must be injected into a porous mesh, without trapping air bubbles, to manufacture composite materials. Interfacial flows
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structures testing and analysis. Preferably, you have experience in composite materials and fatigue, and you have an interest in maritime and offshore engineering. Please view the Job Description for details
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, you have experience in composite materials and fatigue, and you have an interest in maritime and offshore engineering. Please view the Job Description for details. For informal queries please contact Dr
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sustainable smart textile, wearable electronics and composite products. You will assist in the day-to-day planning, organisation and implementation of experiments in the laboratory to ensure the smooth running