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{live-template:Tutorial} This tutorial describes how to model a composite bridge, with a concrete slab over steel girders that have variable flange thickness. *On this page:* {toc} h1. Modeling Steps The key idea is to assign nonprismatic girder section to the bridge deck section to obtain the desired variation of flange thickness. h2. Create New Model from Template * Use "File > New Model", select "KN, m, C" units and Quick Bridge template. * Set span lengths to "30; 30" and select bridge deck section type "Steel Girder" h2. Define Nonprismatic Steel Girder Sections * "Define > Section Properties > Frame Sections" ** rename the default girder section "FSEC1" to "GRD 50mm FLANGE" ** create copy of "GRD 50mm FLANGE" section, change the thickness for the top and bottom flanges to 75mm and section depth to 1.27m (to keep the web depth the same as for the previous section) and save the section as "GRD 75mm FLANGE" ** create nonprismatic sections "GRD span1" and "GRD span2" (via "Add New Property" button, frame section property Other and [nonprismatic section|kb:nonprismatic section]) as follows: (1) for "GRD span1" specify the "GRD 50mm FLANGE" section for the first 20m length of the section and "GRD 75mm FLANGE" section for the next 10m length of the section; (2) for "GRD span2" specify the "GRD 75mm FLANGE" section for the first 10m length of the section and "GRD 50mm FLANGE" section for the next 20m length of the section: !Variable_flange_thickness_i_girder_bridge_nonprismatic_section_span_1.png! h2. Create Bridge Deck Sections * Use "Bridge > Deck Section > Add Copy of Section" menu command to create bridge sections to be assigned to the first and the second spans of the bridge object. These sections will be named "SPAN1" and "SPAN2" and will utilize the previously defined nonprismatic girder sections "GRD span1" and GRD span2" as shown below: !Variable_flange_thickness_i_girder_bridge_deck_section_span_1.png! h2. Assign Bridge Deck Sections to the Bridge Object * Use "Bridge > Bridge Objects > Modify/Show Bridge Object > Modify/Show Assignments, Spans" menu command to assign the previously defined bridge deck sections "SPAN1" and "SPAN2" to the bridge object spans 1 and 2: !Haunched_steel_girder_bridge_span_assignments.png! * Set OpenGL graphics via "Option > Graphics Mode > OpenGL" menu command * Go to "View > Set Display Options > Show Extruded Shape" to display the extruded shape of the bridge (there is a slight graphical display issue, but the frame elements are inserted such that the locations at the top of the web form a continuous line; this can be checked by reviewing insertion point, which is top center, and offsets): !Extruded view.png|width=1000px! h1. See also * [kb:Multiple bridge-deck sections within a single span]
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This tutorial was initially developed for bridge modeler in SAP2000, but the concept applies also to CSiBridge.

This tutorial describes the modeling process for a composite bridge composed of a concrete slab over steel girders with variable flange thickness.

On this page:

Table of Contents

Modeling steps

To obtain the variable flange thickness desired, users should assign non-prismatic girder sections to the bridge deck section.

Create a new model from template

  • Select File > New Model > KN, m, C units > Quick Bridge template.

  • Set span lengths to '30; 30', and select Steel Girder as the bridge deck-section type.

Define non-prismatic steel girder sections

  • Select Define > Section Properties > Frame Sections

    • Rename the default girder section FSEC1 to 'GRD 50mm Flange'.

    • Copy the 'GRD 50mm Flange' section, change the thickness for the top and bottom flanges to 75mm, change the section depth to 1.27m (maintaining consistency with previous web depth), and then save the section as 'GRD 75mm Flange'.

    • Select Add New Property > Frame Section Property (other) > Non-prismatic Section to create non-prismatic sections 'GRD span1' and 'GRD span2' as follows: (1) for 'GRD span1', specify the 'GRD 50mm Flange' section for the first 20m of length, and the 'GRD 75mm Flange' section for the next 10m of length; (2) for 'GRD span2', specify the 'GRD 75mm Flange' section for the first 10m of length, and the 'GRD 50mm Flange' section for the next 20m of length. This process is shown in Figure 1:

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Figure 1 - Section definition

Create bridge deck sections

  • Use the Bridge > Deck Section > Add Copy of Section menu command to create bridge sections to be assigned to the first and the second spans of the bridge object. Name these sections SPAN1 and SPAN2, and utilize the previously-defined non-prismatic girder sections 'GRD span1' and 'GRD span2', as shown in Figure 2:

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Figure 2 - Bridge section data

Assign bridge deck sections to the bridge object

  • Use the Bridge > Bridge Objects > Modify/Show Bridge Object > Modify/Show Assignments, Spans menu command to assign the previously-defined bridge deck sections SPAN1 and SPAN2 to the first and second spans of the bridge object, as shown in Figure 3:

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Figure 3 - Span assignments

  • Set OpenGL graphics using the Option > Graphics Mode > OpenGL menu command

  • Use View > Set Display Options > Show Extruded Shape to display the extruded shape of the bridge. Please note that there is a graphical discontinuity, though the frame elements are inserted such that top-of-web locations form a continuous line. This may be checked by reviewing the insertion point (top center) and offsets. The extruded view is shown in Figure 4:

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Figure 4 - Extruded view

See Also

Metadata

  • Name: Steel-girder bridge with variable flange thickness

  • Description: Guidelines and tutorial for creating a steel-girder bridge with variable flange thickness.

  • Program: SAP2000

  • Program Version: 14.0.0

  • Model ID: na

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  • Location: ondrej/sap2000/test_problems/bridge - variable flange thickness i girder steel bridge

  • Status: Update To Latest Version