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Orr, John
University of Cambridge
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (14/14 displayed)
- 2024Structural design and fabrication of concrete reinforcement with layout optimisation and robotic filament winding
- 2021Reducing the carbon footprint of lightweight aggregate concrete
- 2021An explicit method for simulation of reinforced concrete structures based on peridynamic theory
- 2020Automated Framework for the Optimisation of Spatial Layouts for Concrete Structures Reinforced with Robotic Filament Windingcitations
- 2018Shear Behavior of Variable-Depth Concrete Beams with Wound Fiber-Reinforced Polymer Shear Reinforcementcitations
- 2018Development of new FRP reinforcement for optimized concrete structurescitations
- 2017Wound FRP shear reinforcement for concrete structurescitations
- 2017Bend-strength of novel filament wound shear reinforcementcitations
- 2017Filament winding fabrication of FRP reinforcement cages
- 2017Development of new FRP reinforcement for optimized concrete structures
- 2016An explicit method for simulation of reinforced concrete structures based on peridynamic theory
- 2015Shear strength theories for beams of variable depth
- 2015Advanced tests for durability studies of concrete with plastic waste
- 2004Degradation of poly-L-lactide. Part2 : increased temperature accelerated degradationcitations
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document
Automated Framework for the Optimisation of Spatial Layouts for Concrete Structures Reinforced with Robotic Filament Winding
Abstract
Concrete is a major contributor to the environmental impact of the construction industry, due to its cement content but also its reinforcement. Reinforcement has a significant contribution because of construction rationalisation, resorting to regular mats or cages of steel bars, despite layoutoptimisation algorithms and additive-manufacturing technologies. This paper presents an automated framework, connecting design and fabrication requirements for the optimisation of spatial layouts as of reinforcement of concrete structures, by the means of robotic filament winding.