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Highest Concrete Bridge Pier in the World with Peri ACS self-climbing Formwork

ISTANBUL/TURKEY, October 8, 2014 - In the north of the Turkish metropolis, the third and largest bridge is currently being built across the Bosphorus. The suspension bridge is supported by two A-shaped pylons and reaches a height of around 330 m thus making it one of the highest in the world. The construction of the upper area of the two piers is being carried out in 21 concreting sections, each 4.60 m. The unique shape of the reinforced concrete pylons and the complexity of the mounted parts has required a very flexible planning process.

The 59 m wide bridge carries 8 lanes and 2 railway tracks with a span of 1,408 m across the Bosphorus, and connects – as part of the new 260 km long North Marmara Motorway – the European and Asian continents. With the Peri ACS self-climbing system and Vario GT 24 girder wall formwork, the requirements in terms of flexibility, surface and dimensional accuracy have been met.

highest concrete bridge piers in the world at the new Bosphorus bridge

The 3rd Bosphorus Bridge has the highest concrete bridge piers in the world, and will eventually connect the European and Asian continents after its completion in 2015. | photo: Peri GmbH

ACS self-climbing system, optimally adapted to the complex Geometries

For the inclined surfaces of the A-shaped pylon legs, the adjustable version of the ACS V self-climbing formwork is being used. This can be adapted to suit the sloping side surfaces of the pylons. In order to facilitate safe and ergonomic working conditions at great heights also on inclined structures, the working platform is always positioned horizontally. For the almost vertical surfaces, forming is carried out using the ACS R version which is the standard system of the ACS self-climbing formwork. Within the pylon legs themselves, the ACS P platform version is being used alongside the ACS V.

A major challenge during the planning phase was to adapt the formwork solution in order to match the cross-section requirements of the four pylon legs which steadily become narrower as they climb upwards. The construction has a triangular-shaped base structure with broken corners. Over the height of the pylon, the three long polygon sides are reduced by 1.40 m respectively. The required adjustment of the working platforms has taken place by means of centrally positioned filler platforms whose supporting surfaces are easily adapted to the outer neighbouring platforms. The formwork adjustments are realised using compensation plates and bolted filler elements which are gradually dismantled accordingly.

Peri ACS self-climbing formwork and Vario GT 24 girder wall formwork used at the new Bosphorus bridge

The Peri ACS climbing formwork is easily adapted from cycle to cycle to match the tapered pier layouts. The project-specific solution also provides safe working conditions for the construction team at heights of over 300 m. | photo: Peri GmbH

In addition, the self-climbing solution provides, in particular, the flexibility needed when assembling the steel mounting parts for the stay cable holding devices. The planning solution takes into consideration the varying dimensions and positions of the large-sized steel mounting components. Determining the climbing axes required a well thought-out planning process in order to avoid any collisions with the stay cable boxes. For this, a high degree of dimensional accuracy is required.

All ACS climbing units are provided with a trapezoidal sheet cladding. The enclosure of the lower working platforms with completely closed trapezoid sheeting provides anti-fall protection as well as additional wind and weather protection for site personnel. From the other working platforms on Level +1 and Level +2, the reinforcement in advance is installed for the entire next floor. The perforated trapezoidal metal sheeting in this area lets through light and air. Up to 42 tons of reinforcement materials in total can be stored on the top three platform levels.

the concrete bridge piers at the new Bosphorus bridge were built up with Peri ACS self-climbing formwork

A further challenge is adapting the formwork to the changing dimensions and positioning of the steel mounting parts for guiding the stay cables. The complete solution from Peri meets the strict requirements regarding high flexibility and dimensional accuracy. | photo: Peri GmbH

Relieving the Infrastructure Bottlenecks in Istanbul

The megacity of Istanbul, with around 15 million inhabitants, is the fourth largest city in the world. It straddles two continents and two seas and makes the Turkish metropolis unique but, at the same time, it is plagued by chronic traffic problems. In particular, the two existing Bosphorus crossings from 1973 and 1988 are tremendously overloaded. The new North Marmara route bypasses the centre of Istanbul by a wide margin, crossing the Bosphorus about 25 km to the north of the city centre. The third bridge at the outlet to the Black Sea – also known as Yavuz-Sultan-Selim Bridge – is not only the bridge with the highest concrete bridge piers but also the largest concrete suspension bridge with railway tracks in the world. As a direct connection to the planned mega-airport, it should relieve the two existing bridges quite considerably. The completion of this ambitious project is planned for 2015.
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