Regeneration Tue, Dec 13, 2016 12:34 PM
CORNISH CONCRETE PRODUCTS HAVE DESIGNED, SUPPLIED AND INSTALLED TWO FEATURE STAIRCASES FOR A NEW FOUR-STOREY OFFICE BUILDING AT BP’S INTERNATIONAL CENTRE FOR BUSINESS AND TECHNOLOGY.
Designed by Scott Brownrigg, the building was conceived from the inside out, following a comprehensive workplace strategy to provide a modern, vibrant and energising space to enhance collaborative working and effectiveness. It is also adaptable to the future needs of the global corporation.
Two feature staircases are formed in high-strength precast concrete elements connected by in-situ concrete stitches. Large, curved, tapered spine sections are joined by prestressed Macalloy bars and on to curved flights and half-landing units.
Working from an outline design of the staircase by Buro Happold, Cornish Concrete Products’ engineers carried out the detailed design of the individual precast elements and connections. During this process, the proposed in-situ concrete solution was switched to precast to achieve the required finish and quality. All precast elements cantilever from the curved central spine beam which is partly reinforced with 25mm solid steel plate.
To ensure all precast elements would fit together on site, the curved and tapered sections were modelled in 3D using both Solidworks and AutoCad as independent checks on compatibility.
Unlike most precast staircases, the main visual feature was to be the curved and multi-faceted soffit and so bespoke moulds were produced to ensure units could be cast the ‘right’ way up. Treads were rebated to ensure continuity, with in-situ stitching of the precast elements.
The original design intent required the load to be shared between the spine elements, which are supported on independent foundations, and the tread units, supported from the intermediate floors. Positive connections were therefore provided between every tread and the corresponding spine unit.
However, as both vertical and horizontal incident angles varied for each tread, couplers were incorporated within the spine, welded to an embedded plate and angled to suit each tread – a complex but necessary exercise.
All precast units included rebates, recesses and cast-in conduit for lighting and balustrading, co-ordinated with the reinforcement and embedded steel sections to provide the necessary cover. The extensive liaison required during the detailed design called for some re-analysis of the stairs to check suggested changes to the moulds to ease fabrication and improve the final visual appearance.
Installing the staircases was also challenging. As the only connections to the in-situ concrete frame were the cantilevered full landings at each storey and with all precast components landed on props, lined and levelled, and remaining propped until installation was complete, a detailed and comprehensive temporary works solution was needed.
All units were stitched together in-situ and only when the in-situ concrete had achieved the necessary strength could the propping be sequentially dismantled.
All units were cast in a high-strength mix with white Portland cement and white dolomite coarse and fine aggregates. Units were then fair-faced and finally acid-etched to bring out the attractive sparkle from the mica content of the aggregate.
The staircase was completed by adding a contrasting inset natural stone tread and riser overlaid to conceal the complexity of the construction underneath.
Featured News
External wall insulation specialist Alsecco has introduced technical packs to support...
A glass rainscreen system manufactured by Sto in four different designs has been used...
BUILDING PRODUCT DIRECTORY - LATEST PRODUCTS
Straightcurve® – headquartered in Australia, is renowned for high-end innovative garden edging,...
The Kingspan RLG600 raised access floor panel is intended for light office use and is capable of...
Kingspan RHG600 Simploc is the heavy grade floor system, capable of handling up to a 12kN/m2...
CONSTRUCTION VIDEOS - LATEST VIDEOS
“Building with stone wool insulated sandwich panels” written by Professor Imperadori, is now...
Portakabin | Installation at the iconic Admiralty Arch, London