Skip to end of metadata
Go to start of metadata

You are viewing an old version of this page. View the current version.

Compare with Current View Page History

« Previous Version 21 Next »

Unknown macro: {live-template}

While this tutorial was developed for the SAP2000 bridge modeler, the concept also applies to CSiBridge.

Key modeling steps

  • Create a parametric variation through the Bridge > Parametric Variations option.
  • Assign the parametric variation through the Bridge > Bridge Objects > Modify/Show Bridge Object > Spans > Modify/Show > Modify/Show Section Variation Along Selected Span option.

Example

Consider a two-span bridge with two 15m long spans. The deck superstructure consists of four steel girders supporting a cast-in-place slab. Total superstructure width is 12m, girder spacing is 3m, and the overhang on each side is 1.5m.

These specifications may be defined as shown in Figure 1:


Unknown macro: {center-text}

Figure 1 - Bridge deck section definition


For the second span, the width linearly increases from 12m to 15m. Uniform flare and one-sided flare will be considered.

Uniform flare

Girder spacing increases from 3m to 4m. The structure is symmetric about the layout line. This may be modeled as follows:

  • For all girders in the second span, assign linear parametric variation (from 0m to 1m) to girder spacing.
  • For the second span, assign linear parametric variation (from 0m to 3m) to the total deck width.


Unknown macro: {center-text}

Figure 2 - Variable girder spacing for uniform flare

One-sided flare

Girder spacing increases from 3m to 4m, while for both spans, the right edge of the bridge is straight. This may be modeled by assigning, in addition to the parametric variations for uniform flare, the following:

  • Linear parametric variation (from 0m to 1.5m) to X offset from the reference point to the insertion point.


Unknown macro: {center-text}

Figure 3 - Variable girder spacing for one-sided flare

Attachments

  • No labels