Having core competency in the domain, we are instrumental in providing advanced version of Integrated 3D Bridge Design Software. Finding its wide demands in construction sector, this software is ideal for designing three dimensional designs of bridges. The offered software is designed and developed under the stern supervision of adroit developers with the aid of modern techniques. Moreover, our valuable clients can avail the provided Integrated 3D Bridge Design Software from us at competitive prices.
Integrated 3D Bridge Design Software (CSI Bridge Software)
Modeling, analysis and design of bridge structures have been integrated into CSiBridge to create the ultimate in computerized engineering tools. The ease with which all of these tasks can be accomplished makes CSiBridge the most versatile and productive software program available on the market today.
Using CSiBridge, engineers can easily define complex bridge geometries, boundary conditions and load cases. The bridge models are defined parametrically, using terms that are familiar to bridge engineers such as layout lines, spans, bearings, abutments, bents, hinges and post-tensioning. The software creates spine, shell or solid object models that update automatically as the bridge definition parameters are changed.
CSiBridge design allows for quick and easy design and retrofitting of steel and concrete bridges. The parametric modeler allows the user to build simple or complex bridge models and to make changes efficiently while maintaining total control over the design process. Lanes and vehicles can be defined quickly and include width effects. Simple and practical Gantt charts are available to simulate modeling of construction sequences and scheduling.
CSiBridge includes an easy to follow wizard that outlines the steps necessary to create a bridge model.
Completely integrated within the CSiBridge design package is the power of the SAPFireÂ® analysis
engine, including staged construction, creep and shrinkage analysis, cable tensioning to target forces, camber and shape finding, geometric nonlinearity (P-delta and large displacements), material nonlinearity (superstructure, bearings, substructure and soil supports), buckling and static and dynamic analysis. All of these apply to a single comprehensive model. In addition, AASHTO LRFD design is included with automated load combinations, superstructure design and the latest seismic design.