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by residual elements affect formability (Prof Dan Balint) (4) Effects of residual elements on mechanical and fracture properties (Prof Catrin Davies) (5) Investigation of thermomechanical behaviour and
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into the underlying physical mechanisms of fracture in aluminium structures and the development of more accurate fracture models. The research activities in this project will encompass the development and application
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to their excellent structural performance and relatively low weight. However, their laminated structure results in low fracture toughness and limited impact resistance, influenced by the type of polymer used
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to hydrogen production in continental interiors? What is the role of fault and fracture-related permeability in the transport of hydrogen within Earth’s crust? What are the key geological controls
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through advanced electron microscopy and mechanical testing, including tensile strength, fracture toughness, and thermal creep. Samples will undergo high-heat flux (HHF) testing for thermal fatigue and
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timber buildings, timber bridges with long spans, development of high-performance connections based on threaded rods, static and dynamic testing of timber components and investigation of fracture and high
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and Environmental Engineering (CEE) and Mechanical and Materials Engineering (MME) seek to hire a research assistant professor who will be closely affiliated with the Midwest Roadside Safety Facility
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science, mechanical engineering or physics. This interdisciplinary project requires a passion for both experimental work and computational modelling, along with a keen interest in learning fracture
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timber buildings, timber bridges with long spans, development of high-performance connections based on threaded rods, static and dynamic testing of timber components and investigation of fracture and high
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on the damage and fracture properties of metallic materials, considering the underlying failure mechanisms. Meanwhile, you will employ experimental approaches, including mechanical testing (in-situ damage