Square sample of carbon-fibre reinforced shape-memory polymer for use in shape-changing aircraft 2007
Self-Pitching Carbon Fibre Cyclic Pitch Propeller, prototype, with wooden transport box and steel transport box trolley 2005-2006; 2014
Steel transport box trolley, for self-pitching three blade carbon fibre cyclic pitch propeller, prototype, designed and made by John Coxon, Pulborough, West Sussex, England, 2014. The propeller was designed to be fitted to small motor vessel Volvo-Penta stern drive units. Originally, the propeller was designed for aircraft. Steel transport box trolley, for Self-Pitching Carbon Fibre Cyclic Pitch Propeller, prototype 2014
Racing yacht test model built and used at the Wolfson Unit for Marine Technology and Industrial Aerodynamics at University of Southampton for the 32nd America's cup, 2007. Placed in a wind tunnel it is used for aerodynamics testing with the forces and drag on the model being measured to help engineers compare different designs. 32nd America’s Cup Racing Yacht Model 2004-2005
Pressure vessel made from wound carbon fibre filaments. Pressure vessel made from wound carbon fibre filaments
Conformal bending SLS insoles with SLS (1 of 2). Made of common commercially available polymers (Nylon, PLA, polypropylene, elastomers) & glass and carbon fibre reinforced plastics. 3D printed Orthotics 2012-2013
Multicolour Multimaterial insoles (1 of 2). Made of common commercially available polymers (Nylon, PLA, polypropylene, elastomers) & glass and carbon fibre reinforced plastics. 3D printed Orthotics 2012-2013
Colour honeycomb shells (3 of 3). Made of common commercially available polymers (Nylon, PLA, polypropylene, elastomers) & glass and carbon fibre reinforced plastics. 3D printed Orthotics 2012-2013
Colour honeycomb shells gold (1 of 3). Made of common commercially available polymers (Nylon, PLA, polypropylene, elastomers) & glass and carbon fibre reinforced plastics. 3D printed Orthotics 2012-2013
¾ insole with flexible SLS material –Q-Code. Made of common commercially available polymers (Nylon, PLA, polypropylene, elastomers) & glass and carbon fibre reinforced plastics. 3D printed Orthotics 2012-2013