spring walk & sulley's hill

spring walk

This exceptional structural engineering project is a testament to innovation and meticulous design, currently undergoing thorough evaluation. The building features a unique and striking design, composed of two intersecting rectangles that collide dynamically at the centre, creating a visually captivating structure.  The project showcases very large double-storey cantilevers, one of which relies on hidden tension cables for support, demonstrating an advanced understanding of structural mechanics. This design choice not only ensures stability but also adds to the building's aesthetic appeal.  Below ground, the building includes a spacious basement that houses a swimming pool and various rooms, enhancing the functionality and luxury of the structure. The main structural format of the building consists of a robust steel frame and precast concrete floors, providing a strong and durable foundation. Additionally, elements of in-situ concrete are employed to form shear walls and stability frames, further reinforcing the building's structural integrity.  For the large cantilever areas, extensive research and development have been undertaken to devise innovative and challenging structural solutions. This project exemplifies cutting-edge engineering practices and a commitment to pushing the boundaries of conventional structural design.

sulleys hill

This project is currently being developed. The design includes a large garage and a studio being constructed under the ground.  The main house has a basement accommodating a swimming pool and cinema room there are three upper floors accommodating living space and a kitchen on the ground floor and bedrooms on the first and second floor.  The main structural format will be in formed Insulated concrete panels and the large spans and cantilevers will be formed in reinforced concrete.  Sustainability and minimisation of the carbon footprint has a very high priority on this project and extensive research has been carried out to deliver on this brief.  due to a very high water table the foundations will be formed in piles and the ground floor slab will be suspended.