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Dr John Orr is an EPSRC Early Career Fellow and University Lecturer in Concrete Structures at the University of Cambridge. His teaching and research are related to sustainable construction, with emphasis placed on concrete, and structural optimisation. John graduated with a first class MEng(hons) degree in Civil Engineering from the University of Bath in 2009, winning three University Awards. He subsequently stayed in the Department of Architecture and Civil Engineering to complete a PhD in fabric formwork, Flexible Formwork for Concrete Structures, graduating in 2012. Throughout his PhD John worked in industry with Atkins, who sponsored his research through an EPSRC Collaborative Award in Science and Engineering. Dr Orr joined the University of Cambridge in 2017.
John has a strong research interest in all aspects of flexible formwork, including its potential to significantly reduce concrete consumption through optimised design processes, and its inherent architectural appeal. His work takes an holistic approach to the unique optimisation, design and construction requirements of these innovative concrete structures. Their optimised geometries mean that new analysis tools are required, and John’s recent work has focused on developing techniques for the computational modelling of concrete using peridynamics. This offers many advantages and will allow us to model all of the complex behaviour of reinforced concrete structures of any geometry, ensuring that material efficiency can be at the centre of the design process.
John has a strong research interest in all aspects of flexible formwork, including its potential to significantly reduce concrete consumption through optimised design processes, and its inherent architectural appeal. His work takes an holistic approach to the unique optimisation, design and construction requirements of these innovative concrete structures. Their optimised geometries mean that new analysis tools are required, and John’s recent work has focused on developing techniques for the computational modelling of concrete using peridynamics. This offers many advantages and will allow us to model all of the complex behaviour of reinforced concrete structures of any geometry, ensuring that material efficiency can be at the centre of the design process.
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论文共 134 篇作者统计合作学者相似作者
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Thin-Walled Structures (2024): 111361-111361
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THIN-WALLED STRUCTURES (2024): 110890-110890
Emmanuel Owoichoechi Momoh,Amila Jayasinghe, Mohammad Hajsadeghi,Raffaele Vinai,Ken E. Evans, Prakash Kripakaran,John Orr
Thin-Walled Structures (2024): 111447
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Structures (2023): 124-138
CRC Press eBookspp.119-126, (2023)
Reka Mandoki,John Orr
ARCHITECTURAL ENGINEERING AND DESIGN MANAGEMENTno. 2 (2023): 148-162
Engineering Structures (2022): 114207-114207
RILEM BookseriesThird RILEM International Conference on Concrete and Digital Fabricationpp.267-273, (2022)
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