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PJ’s research deals with the structural and functional (mechanical performance) characterisation of engineering materials and structures across a broad range of scales. He is particularly interested in understanding how light-weight materials (foams, micro-architectured lattices, composites, etc.) and structures (sandwich panels, bonded structures etc.) respond to unconventional loadings, and how they may be designed, or used in combination, to withstand more arduous operating conditions; including dynamic loading, thermal and mechanical stresses, enhanced resistance to spall and shock without structural degradation. A major driver of his research work concerns the application of engineering solutions to improving the physical resilience of built systems to extreme load cases arising from malevolent actions, accidents or natural hazards. His work has been funded through research grants and fundings from the EPSRC, EU, QinetiQ, Lloyd's Register, UK-MOD and BAE Systems. In addition, he also undertakes collaborative research with medical and life science colleagues to address biomedical-related problems; for example, with ENT physicians/surgeons to develop predictive in-silico tools for aiding surgical intervention in NAO (Nasal Airway Obstruction), and on aerosols (carrying pathogens, such as SARS-CoV-2) transport and deposition through the nasal gateway.
研究兴趣
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Engineering Fracture Mechanicspp.110173, (2024)
ENGINEERING STRUCTURES (2023): 115954-115954
JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH (2023): 108006-108006
Low-Temperature Technologies and Applications (2022)
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