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Field
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materials such as lithium ion batteries and fuel cells are prone to degradation by a range of failure mechanisms including swell-induced fatigue and micro-cracking. The apparent toughness may be a function of
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and the cycle frequency is typically lower than that of a normal thermo-mechanical fatigue (TMF) cycle resulting in deformation dominated by creep mechanisms. The aim of this project is to develop a
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for people driven by excellence, excited about innovation, and looking to make a difference. If this sounds like you, you've come to the right place! Your Role The computational mechanics group of Prof
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diverse team of internationally renowned investigators and clinicians who study the mechanisms and most effective treatments for conditions that have chronic pain and fatigue as core symptoms. At
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laboratory can be found at https://www.hunterneurolab.com/ . Duties and Responsibilities 1. Help manage and coordinate scientific research studies on the mechanisms of whole limb fatigue and exercise-training
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Engineering » Mechanical engineering Technology » Materials technology Researcher Profile Recognised Researcher (R2) Country Austria Application Deadline 8 May 2024 - 23:59 (Europe/Brussels) Type of Contract
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the challenges associated with fatigue risk management in healthcare, to determine the evidence and mechanisms for fatigue effects on performance amongst healthcare professionals, and to develop and validate a
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between the system hydrodynamics, structural mechanics and component fatigue. Using the developed models you will explore how design and control of system operation can be used to balance design and
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the complex interactions between the system hydrodynamics, structural mechanics and component fatigue. Using the developed models you will explore how design and control of system operation can be used
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associated with heating and cooling, these load/thermal cycles are complex in nature and the cycle frequency is typically lower than that of a normal thermo-mechanical fatigue (TMF) cycle resulting in