RCD’s Footbridge Layout Early Assessment (FLEA) tool is an interactive client-focussed App which was developed rapidly in the space of just two weeks in order to address a specific project’s needs.
A Load Take-Down is a procedure frequently performed by structural engineers to assess the amount of loading carried by the columns of a building into its foundations. It is an important early-stage analysis necessary to inform the choice of column layout and foundation system, but it is also a notoriously tedious and time-consuming process that is regarded as something of a ‘rite of passage’ for young engineers to endure. Continue reading “RCD Tadpole (Ramboll Load Take-Down Tool)”
Salamander 3, a new structural modelling and interoperability tool developed by RCD lead Paul Jeffries, is now in open beta and available to download from Food4Rhino. The tool adds the ability to model structural elements such as beams, slabs, nodes etc. inside Rhino and for this data to be exchanged with analysis packages (at present, Autodesk Robot and Oasys GSA). Continue reading “Salamander 3 now in open beta”
The KREOD Pavilion has won a coveted Structural Award at the prestigious ceremony at The Brewery in London. The awards are held annually by the Institution of Structural Engineers (IStructE) to celebrate excellence in structural engineering both in the UK and internationally. The KREOD Pavilion won the Small Project award.
KREOD Pavilion is a sustainable, portable, demountable and multi-functional indoor or outdoor exhibition space that was launched at Peninsular Square near the O2 and Emirates Airline at North Greenwich in London in 2012. Pavilion Architecture led the project.
KREOD’s organic form is inspired by nature, closely resembling a seed. It sits on castors allowing the structure to be moved and rearranged into different forms. Ramboll’s Computational Design (RCD) team contributed to the conceptual design of the pavilion, helping to translate the concept into a rational and buildable form using high technology and imaginative engineering – a creative design led by constraints on cost and appearance.
The team developed digital design techniques to model and shape the pavilion leading to a more efficient and buildable form. They also made innovative use of a reciprocal jointing system that can be fully dismantled and flat packed. The project saw the first use of Kebony a structural element, which required the Computational Design team to embark on a programme of material testing at Cambridge University.
The judging panel praised the KREOD Pavilion for its pioneering approach to creating a functional and demountable enclosure in a striking yet sustainable way:
“Once in a while developing new techniques and processes, coupled with imaginative and perceptive engineering skills, allow the realisation of a design that previously would not have been feasible or financially viable. Though temporary by nature, the KREOD Pavilion is a seminal structure, demonstrating the possibilities of the exoskeletal approach to permanent habitable buildings of the future”.