Overview
Project Summary
13 concrete bridges
Total length: 570 m
BIM applications
Services
Location
Period
Employer/Client
As part of the development of the A27 road between Everdingen and Hooipolder in the Netherlands, our company is designing substructures of 13 concrete bridges which have a total length of 570 meters.
Bridges are composed of simple supported precast prestressed I or box shaped girders. Five of the bridges are designed as an integral type. Due to poor soil conditions piled foundations of drilled and driven piles with battered and vertical geometry is used.
Bridge designs are being created using commercial building information modeling (BIM) software, with the entire process shared and coordinated within a BIM platform. This BIM environment allows for seamless collaboration across various disciplines, facilitating real-time design updates, documentation, and efficient project management. In addition to 3D solid models, 2D drawings are also produced, and the reinforcements are modeled in three dimensions using specialized 3D-CAD software. The 3D reinforcement models are integrated into the formworks, enabling clash detection and verification, ensuring design accuracy and minimizing potential errors before construction begins. The integration of BIM technology plays a critical role in enhancing project efficiency, reducing costs, and improving overall quality control throughout the project lifecycle.
As part of the development of the A27 road between Everdingen and Hooipolder in the Netherlands, our company is designing substructures of 13 concrete bridges which have a total length of 570 meters.
Bridges are composed of simple supported precast prestressed I or box shaped girders. Five of the bridges are designed as an integral type. Due to poor soil conditions piled foundations of drilled and driven piles with battered and vertical geometry is used.
Bridge designs are being created using commercial building information modeling (BIM) software, with the entire process shared and coordinated within a BIM platform. This BIM environment allows for seamless collaboration across various disciplines, facilitating real-time design updates, documentation, and efficient project management. In addition to 3D solid models, 2D drawings are also produced, and the reinforcements are modeled in three dimensions using specialized 3D-CAD software. The 3D reinforcement models are integrated into the formworks, enabling clash detection and verification, ensuring design accuracy and minimizing potential errors before construction begins. The integration of BIM technology plays a critical role in enhancing project efficiency, reducing costs, and improving overall quality control throughout the project lifecycle.