153 structures "https:" "https:" "https:" "https:" "https:" "https:" "https:" "https:" "Univ" "Univ" positions at University of Nottingham in United Kingdom
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engineering, structural, aerodynamic & manufacturing process modelling and optimisation techniques that will transform current design & development practices. Together we will make technological advances
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of calculations on a hardware architecture that matches the inherent nature of quantum chemistry electronic structure calculations and with it the opportunity to capture some of the inherent physics, albeit with
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role will contribute to on-going research focused on examining soil–structure interface behaviour. The work will explore fundamental interface behaviour, with particular relevance to granular mechanics
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manufacturing processes, driving the development of sustainable composite structures for high-performance applications. Undertake doctoral-level training at the University of Bristol, a globally recognised
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, driving the development of sustainable composite structures for high-performance applications. Undertake doctoral-level training at the University of Bristol, a globally recognised institution at
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Expectations” focus group approach. Develop a structured NTCA competency framework aligned with the RCVS Day One Competences and AAVMC Competency-Based Veterinary Education framework. Produce practical
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of calculations on a hardware architecture that matches the inherent nature of quantum chemistry electronic structure calculations and with it the opportunity to capture some of the inherent physics, albeit with
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binders, road construction About the Net2Zero Centre for Doctoral Training The EPSRC and BBSRC CDT in Negative Emission Technologies for Net Zero (Net2Zero) is a partnership between Aston University (lead
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. We provide a structure for people to thrive, feel supported, valued and that their health, safety and wellbeing is being managed (including mental wellbeing). The aim and purpose of the School
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components are designed and produced. This PhD project focuses on Molten Metal Jetting (MMJ), an emerging metal 3D printing technology that enables the precise fabrication of multi-material metallic structures