Why Tekla Structures are Different but Better for Bridge Engineering?

Tekla structure provides a subsequent experience in detailing, and the structure particularly outshines, making it possible to valuable constructible data while using the power of a constructible 3D model.

Tekla structures make it simple to produce 3D models from pre-existing models and can even be utilised at all stages of the construction site. A 3D model can be helpful to any team member working on a building project.

With Tekla and its constructible model, you may create your entire construction project digitally due to the number of details offered. In addition, they offer certain features that you never find in any other software. For example, one unique thing is their creative pour management method. In addition, using a single model allows you to portray design elements like beams, slabs, and joints.

Tekla Structures is the market’s top Bridge Information Modeling (BrIM) solution.
They produce even the most challenging designs, like double curved form bridges, because of our model-to-build methodology, collaborative tools and practices, and client-focused philosophy.

Using Tekla Structures (bridge design software), you may construct any bridge –

1. Tied or arched bridge span-

It is an arch bridge in which any part of the overall deck structure that such large arches support is under equal tension from gravity and the tied-arch bridge itself to prevent any outward horizontal force of the arches caused by tension at the arch ends to a foundation.

2. Cantilever bridges-

A cantilever bridge is made of cantilevers, which are supported at only one end and project horizontally into the air.

3. Suspension-equipped bridges-

A suspension-equipped bridge has the deck suspension bridge has the deck suspended from below suspension cables by a vertical suspender.

4. Cable-stayed bridges-

The weight of the bridge’s surface is supported by several nearly straight and diagonal cables directly attached to one or even more vertical towers. Such a type of bridge is called a cable-stayed bridge.

5. Underpasses-

An underpass is an underground passageway that enables vehicles or pedestrians to cross a street, road, etc.

6. Retaining wall-

These walls are usually rigid constructions in which soil is preserved at depth on both sides to prevent soil from flowing naturally down a slope; such walls are constructed.

7. Steel Bridge-

Steel bridges are bridges in which steel is the primary material and is simple to produce and frequently utilised in bridge construction because steel materials tend to have high tractile strength.

8. Concrete bridge-

A concrete bridge is a building built of concrete that covers a specific distance.
Concrete bridges typically allow transportation over lakes, rivers, valleys, or freeways.

9. Integrated bridge-

It is an interconnected system known as an integrated bridge system that provides centralised access.

10. Beam or box-shaped bridges-

If the primary beams of the bridge are box-shaped, they are known as a beam or box-shaped bridges.
Precast concrete, structural steel, or a combination of steel and reinforced concrete are the most common material used to make box girders.

Conclusion

Tekla structures are the ideal solution for designing constructible bridges of all shapes, sizes, and materials.
If you are interested in learning about bridge engineering, then there are several bridge engineering courses available online.

Decide the best plan for yourself, and start today!

 

 

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