TITAN HD FAB.
Regeneration of former NCP car park on Carrington Street, Piccadilly.
This project sees the demolition and transformation of Mayfair’s oldest carpark, on Carrington Street near Hyde Park Corner, rejuvenating the area with apartments and leisure facilities. The building will have a central seven story stair and lift core, with a steel frame structure constructed around this. To deliver the core, a jumpform solution was required and specialist engineering contractor McGee’s instructed Ischebeck TITAN for design and supply of the HD FAB system and NOEtop wall shutters.
The steel frame element of this project will be connected using steel inserts which are cast into the core. This is a crucial, high level of detail consideration for the Ischebeck TITAN design team – any clash of HD FAB anchor positioning with the inserts means no concrete to cast the anchor into. In addition to this, McGee specified that steel inserts were required at the bottom of each concrete pour rather than typically at the top. The weight of the inserts became problematic as reinforcement was not strong enough to support them in place. The result of this was that pour heights were limited and designing around this limitation meant a final pour height of 1.8m. Usually, this 1.8m would have been factored into the pour heights below, and Ischebeck TITAN provided a engineered solution, jumping the HD FAB platforms a final time using a 1.325m NOEtop panel and a timber make up on top.
Services and Support
A total of nine HD FAB platforms were delivered, five external platforms and 4 internal. One of the internal platforms was adapted to include a hatch for a staircase tower, providing the main access route onto the deck and other platforms. Inclusive of full height edge protection, HD FAB units deliver ultimate confidence and safety on site. TITAN HD FAB platforms are preassembled prior to delivery and once on site, the system can easily be unfolded, minimising labour costs and build time. The units can be lifted directly on the building and fixed into position, freeing up essential site space.
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