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Location: West Cambridge Funder: Tata Steel and the University of Cambridge Duration: 4 years from 1 October 2026 Supervisors: Prof Howard Stone and Dr David Collins Location: The PhD studentship
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Location: West Cambridge Funder: Tata Steel and the University of Cambridge Duration: 4 years from 1 October 2026 Supervisors: Prof Howard Stone and Dr David Collins Location: The PhD studentship
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Location: West Cambridge Funder: EPSRC Industrial Doctoral Landscape Award and Tata Steel Duration: 4 years from October 1st 2026 Supervisors: Dr David Collins and Prof Howard Stone Location
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structures has become a vital strategy for minimising the environmental and economic costs associated with demolition and new construction. However, one of the most pressing threats to structural integrity is
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The pipe industry, comprising PVC, HDPE, steel, ductile iron, and concrete pipes, significantly contributes to greenhouse gas emissions due to energy-intensive production, material sourcing, and
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freedom by locally adjusting material properties through real-time modifications of the powder composition. In steels, local thermal gradients also influence phase formation, making accurate process control
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infection models. This PhD project aims at investigating biofilm maturation and antibiotic tolerance on metal surfaces, including titanium and stainless steel. The focus will be on clinically relevant
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for the "Living Manufacture: An Engineered Living Materials based Fabrication Platform" project. We're in search of a dedicated, motivated, and innovative researcher to join the Living Construction research group
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, and production systems. Project Description This PhD position is part of the research project “Compressed Hydrogen in Marine Propulsion Systems: Temperature Evolution and Structural Integrity of Onboard
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the Institute of Advanced Simulation – Materials Data Science and Informatics (IAS-9) and the Institute of Energy Materials and Devices – Structure and Function of Materials (IMD-1) to establish a data-driven