Allplan Bridge Workflow Overview

ONE PARAMETRIC MODEL FOR GEOMETRY, ANALYSIS, DESIGN & DETAILING

Allplan Bridge is the worlds first complete solution for Bridge engineers, reducing time-consuming project changes to a bare minimum by offering detailed geometrical and structural analysis in one Model across an entire BIM Workflow.

THE ALLPLAN BRIDGE WORKFLOW
THE WORLD’S FIRST COMPLETE SOLUTION FOR BRIDGE ENGINEERS

1. AXES DEFINITION

In Allplan Bridge, you can adopt the data from an existing design (using LandXML data format) or define it manually.

2. CROSS-SECTION MODELING

You can define any cross-section and determine the geometry with its dependencies and variables. These parametric cross-sections can be adapted at any time and be saved as a template and be reused.

3. REFERENCING STANDARDIZED PROFILES

Standardized and repetitive profiles such as longitudinal stiffeners for steel and composite cross-sections can be easily positioned parametrically.

4. 3D MODEL CREATION WITHOUT COMPROMISE

The digital model In Allplan Bridge is completely parametric. Changes can be made at any time. The dependent objects are automatically adjusted. Allplan Bridge is suitable for all phases of work – from the concept to the detailed design.

5. PRESTRESSING MODELING MADE SIMPLE

Allplan Bridge makes it easy to model a wide range of types of pre-stressing: with immediate or later bond, internal and external, longitudinal, transverse and vertical, as well as with non-standard geometry.

6. PLANNING TENDNON STRESSING SEQUENCE

A stressing sequence can be defined for each tendon specified in the model.

7. 4TH DIMENSION: CONSTRUCTION SCHEDULE DEFINITION

Time as the 4th dimension is considered by easily specifying the construction process. The construction plan is divided into several phases and further into individual tasks. The related structural components are interactively assigned to these tasks.

8. AUTOMATIC DERIVATION OF THE ANALYSIS MODEL

Thanks to breakthrough technology, Allplan Bridge automatically generates the analysis model from the geometrical model. This greatly reduces the amount of work and the susceptibility to errors.

9. ASSEMBLING CONSTRUCTION SEQUENCE CALCULATION

Allplan Bridge analyses the defined construction schedule and sets up all necessary calculation definitions in an automated process, like load cases, element activations and calculation actions.

10. CREEP, SHRINKAGE AND RELAXATION

In Allplan Bridge the calculation of creep and shrinkage of concrete and relaxation of prestressing steel is code-compliant.

11. APPLY ADDITIONAL LOADS

The weight and the position of superimposed dead loads (like sidewalk, road pavement, etc.) are automatically retrieved from the geometrical model. Additional loads, like temperature change or wind loads, can be defined and applied easily as well.

12. TRAFFIC LOAD DEFINITION

Traffic loads can be defined/applied in a very comfortable way. On the one side, the traffic load is automatically applied in accordance with the selected standard. On the other side, the generic approach of live load definition implemented in Allplan Bridge allows the user to consider any type of moving load.

13. CALCULATION AND EVALUATION OF INFLUENCE LINES

With Allplan Bridge, the most unfavorable effects due to traffic loads can be determined quickly and easily using the theory of (related) influence lines

14. CALCULATION OF EIGEN MODES

The natural modes of the structure are calculated on the undamped system by determining the roots of the homogeneous equation system.

15. RESPONSE SPECTRUM ANALYSIS

The analytic solutions for typical structures and unit impacts are provided in the design codes as relevant response spectra, specifying the relevant proportionality factors for the individual eigenmodes dependent on the natural frequency.

16. SUPERPOSITION

The user-friendliness of the superposition in Allplan Bridge is groundbreaking. The schematic definition of the superposition combines maximum flexibility with optimal overview.

17. COMBINATIONS

The definition and visualization of combination in table form gives the user an overview not only of the defined load factors but also of different types of combinations.

18. PERFORMING STRUCTURAL ANALYSIS

A global static analysis based on the Bernoulli beam theory is performed for all manually defined and automatically generated calculation actions in the previously defined construction schedule.

19. CODE-BASED DESIGN

After the global effects have been calculated and the corresponding envelopes generated, the user can perform the code-dependent design to determine the required reinforcement area.

20. PARAMETRIC OBJECT PLACEMENT

Objects from the Allplan Engineering library can be referenced in Allplan Bridge to add further details such as lamp posts or anchor devices of tendons to the bridge model.

21. CHANGES MADE IN NO TIME AT ALL

Allplan Bridge helps you to manage the inevitable changes that occur during the design process. The parametric model description is an ideal base for adapting design changes for geometrical and analytical model.

22. FREE FORM MODELING

Powerful 3D modeling functionality allows to implement all bridge details without compromise: simply, flexible, and with the highest level of precision. The Parasolid® modeling kernel from Siemens handles intricate free-form geometry based on B-Splines and NURBS as well as for standard tasks such as joints, cut-outs and drainage with ease.

23. REINFORCEMENT MODELING

With Allplan, even challenging bridges with double curvature and varying cross-sections are reinforced conveniently and rapidly. The reinforcement is defined in different cross-sections and the transitions between the cross-sections are described with paths. Various rules can be defined, such as how the reinforcement joints are to be carried out. Using this information, the reinforcement is automatically generated.

24. CREATE DRAWINGS

Elevations, longitudinal sections along any path and transverse sections are derived from the digital bridge model. CineRender from Maxon is used for realistic visualizations. Allplan’s powerful layout and design tools are used to create high-quality construction documentation.

25. CREATE REPORTS

The digital bridge model contains a multitude of information. Comprehensive reports with dimensions, areas, volumes, weights and quantities are available at the touch of a button.

26. SMOOTH DATA EXCHANGE

Integrating road data used for road/bridge alignment is easily achieved via ALLPLAN’s open BIM platform Allplan Bimplus. The bridge engineer must only take over the road data and can immediately start with the bridge design. Once the design is completed, the parametric model can be transferred in Allplan Engineering and to analysis software.

27. EXCHANGE THE ANALYTICAL MODEL

The analytical model generated in Allplan Bridge can be shared with other analysis solutions by uploading it to the cloud-based BIM platform Allplan Bimplus.

28. BIM COLLABORATION

With the combination of Allplan and the cloud-based BIM platform Allplan Bimplus, everyone involved has access to the latest design, anytime, anywhere and with any device. BIM coordination happens interactively on the digital bridge model. Discrepancies are detected at an early stage and resolved jointly. This is an important contribution to ensuring that the construction project is completed on time and within budget.

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