Inverted-tee beam (52)

Tekla Structures
2021
Tekla Structures

Inverted-tee beam (52)

Inverted-tee beam (52) creates typical flexural, shear, and ledge reinforcement for an inverted-tee beam.

Reinforcement created

  • Prestress straight or depressed strands for flexural reinforcement in the inverted tee stem

  • Mild longitudinal bars for flexural reinforcement

  • Mesh for shear reinforcement in the beam stem

  • Stirrups for shear reinforcement in the beam stem

  • Reinforcement mesh in the inverted-tee ledges

  • Stirrups for shear reinforcement in the inverted-tee ledges

  • Mild reinforcement in the top of the beam that will be used later to create a composite member

  • Mild reinforcement in the ends of the beam

Use for

Situation

Straight and depressed prestress strands

Varying strand pattern and strand number

To define longitudinal reinforcement in the stem

When you want reinforcement mesh in the stem

When you want stirrups in the beam stem

To use reinforcement mesh in the beam ledges

To use stirrups in the beam ledges

To define reinforcement for composite members

To add mild reinforcement to the beam ends

Before you start

  • Create the concrete inverted-tee beam.

  • Calculate the required area and quantity of strands and other reinforcement.

  • Define other reinforcement properties, such as debonding and pull values.

Strand template tab

Use the Strand template tab to define the allowable grid points for strands within the beam cross section.

Grid spacing along Y and along X

You can specify the arrangement of vertical strand planes in the beam, along with the vertical distances between grid points in each plane. Strands are defined by their row and column number within the grid, but the template allows for a mixture of regular and irregular grid points with respect to both the horizontal and vertical axes.

Use the Grid spacing along X and Grid spacing along Y fields to define a list of distances between successive planes and grid points.

Separate the values with commas or spaces. The first value is the distance from the the bottom edge of the stem. Each successive value is the distance to the next grid point.

Tip:

Use a multiplier to define a repeating series of values. For example, 8*2 indicates eight holes with a two unit spacing.

Strand pattern tab

Use the Strand pattern tab to define the actual strand properties.

You place strands in the beam by defining the grid points from the strand template for each end of the strand element. You also define size, and other reinforcement properties for the strands here.

A row of data on this tab can be thought of as a group. All the strands defined in one group share the same properties and start and stop rows. A group may also refer to a list of columns in the strand template, letting you use one group definition to create a set of strands.

External file

With an external CSV file you can define an unlimited amount of individual strands.

Select to use an external file from the Use external file list.

Select an external CSV file by clicking ... button.

Rebar end is same as start

Define the strand input.

  • Select Yes to use the row and debond information of the strand start for the strands at the strand end.

  • Select No to define an alternate row and debond information at the end of each strand.

Strand pattern definitions

Define the row and column for each end of the strand using the strand template positions in the strand grid. Strands may have different grid row positions at each end, but a strand cannot cross grid columns.

Option

Description

Strand start - Row

Define the horizontal row number in the strand template for the start of the strand.

Strand start - Debond

Define the debond length at the start of the strand.

Strand end - Row

If Same as left is No, define the horizontal row number in the strand template for the end of the strand.

Strand end - Debond

If Same as left is No, define the debond length at the end of the strand.

Columns

Define a list of one or more column numbers and/or column ranges in the strand template at which a strand should be created.

Size

Define the size of the strands by selecting if from the reinforcing bar catalog.

Grade

Define the strand grade.

Pull

Define the pull force of the strands.

Strand profile tab

Use the Strand profile tab to define the vertical profile for strands in the beam.

Strands may be straight (though not necessarily horizontal), or depressed, using one or two control points. Note that all strands use the same general profile.

Use the following options to define the strand profile:

Option

Description

Straight

1-pt depressed

2-pt depressed variable

2-pt depressed fixed

Define the height of the strand in Strand ht @ position.

Depress position

Define depress positions A and B as either a fixed distance or as a percentage of the member length.

Same as A

Define whether depress position B uses the same values as depress position A in the Two points, depressed variable and Two points, depressed fixed strand profiles.

Longitudinal rebar tab

Use the Longitudinal rebar tab to create additional mild steel reinforcement in the beam. Reinforcement may be defined with a variety of parametric forms.

Minimum end clear distance C & D

Define the minimum end clearance distance.

Longitudinal rebar definitions

Option

Description

Grade

Define the grade of the reinforcing bar.

Size

Define the size of the reinforcing bar by selecting it from the reinforcing bar catalog.

Xloc

Specify the horizontal location of the reinforcing bar.

Yloc

Specify the vertical location of the reinforcing bar.

Length type

Define the length type for the reinforcing bar group. Enter additional information in the L, C, or D fields.

Option

Description

Full length

Reinforcing bar extends the full length of the stem, excluding the minimum end clear distance at each end.

The L, C, and D fields are disabled.

Centered

Define a fixed length L for the reinforcing bar. The reinforcing bar is place at the center position in the stem.

The C and D fields are disabled.

Known L, C

Define a fixed length L for the reinforcing bar and a distance C from the start of the strand.

The D field is disabled.

Known L, C

Define a fixed length L for the reinforcing bar and a distance D from the end of the strand.

The C field is disabled.

Known C, D

Define a distance C and D from the end of the strand.

The L field is disabled.

Location

Specify the relative location for longitudinal bars using the following icons:

Description

Option

Top and bottom left:

Top and bottom right:

Top and bottom left and right:

Top left:

Top right:

Top left and right:

Bottom left:

Bottom right:

Bottom left and right:

Stem mesh tab

Use the Stem mesh tab to define the mesh used in the beam stem. Mesh can run the full length of the beam, or be placed in short sections at either end of the beam.

Stem mesh type

Define the mesh type by selecting it from the Mesh type catalog. The mesh type also defines the mesh grade, mesh size, and bar spacing.

Stem mesh length

Specify whether the mesh is continuous over the full length of the member or is used only at the spandrel end(s) from the Continuous list. If Yes is selected from the list, the mesh extends the full length of the member. If No is selected from the list, mesh can be defined at each end.

Stem stirrups tab

Use the Stem stirrups tab to define the bent bar reinforcement in the beam stem. This includes stirrup shape, bar size, end clearance, number of bars, and bar spacing in five zones along the length of the beam.

Reinforcing bar properties

Option

Description

Spacing

Define the reinforcing bar spacing.

Use a space to separate spacing values. Enter a value for each space between the reinforcing bars. For example, if there are 3 reinforcing bars, enter 2 values.

Bars

Define the number of reinforcing bars.

Rebar size

Define the reinforcing bar size by selecting it from the reinforcing bar catalog.

Same as left end

Define whether the same spacing and reinforcing bar properties are used at the right end of the stem.

Rebar grade

Define the reinforcing bar grade.

If you select the size from the reinforcing bar catalog, the grade value is not used.

Stirrup shape

Use the following options to define the stem stirrups in inverted-tee beams:

Option

Description

No stirrup

90-degree closed stirrup

135-degree closed stirrup

U-Bar pairs

135-degree open stirrup

Ledge mesh tab

Use the Ledge mesh tab to define the mesh to be used to reinforce the beam ledges. Mesh runs the full length of the beam.

Ledge mesh type

Define the mesh type by selecting it from the Mesh type catalog. The mesh type also defines the mesh grade, mesh size, and bar spacing.

Ledge rebar tab

Use the Ledge rebar tab to define the bent bar reinforcement in the beam ledges. This includes strirrup shape, bar size, end clearance, number of bars, and bar spacing in five zones along the length of the beam.

Reinforcing bar properties

Option

Description

Spacing

Define the reinforcing bar spacing.

Use a space to separate spacing values. Enter a value for each space between the reinforcing bars. For example, if there are 3 reinforcing bars, enter 2 values.

Bars

Define the number of reinforcing bars.

Rebar size

Define the reinforcing bar size by selecting it from the reinforcing bar catalog.

Same as left end

Define whether the same spacing and reinforcing bar properties are used at the right end of the stem.

Rebar grade

Define the reinforcing bar grade.

If you select the size from the reinforcing bar catalog, the grade value is not used.

Stirrup shape

Use the following options to define the ledge stirrups in inverted-tee beams:

Option

Description

No stirrup

Bent U-bar stirrup

Bent U-Bar pairs

90-degree stirrup

135-degree stirrup

Composite tab

Use the Composite tab to define the bent bar reinforcement added to the top of the beam stem for subsequent creation of composite elements. Define bar size, embedment, projection, cover, end clearance, number of bars, and bar spacing in three zones along the length of the beam.

Reinforcing bar properties

Option

Description

Spacing

Define the reinforcing bar spacing.

Use a space to separate spacing values. Enter a value for each space between the reinforcing bars. For example, if there are 3 reinforcing bars, enter 2 values.

Bars

Define the number of reinforcing bars.

Rebar size

Define the reinforcing bar size by selecting it from the reinforcing bar catalog.

Rebar grade

Define the reinforcing bar grade.

If you select the size from the reinforcing bar catalog, the grade value is not used.

End rebar tab

Use the End rebar tab to define the properties of bent bar reinforcement in the beam ends. Up to 6 horizontal and 6 vertical bars may be defined.

Option

Description

Size

Define the size of the reinforcing bar by selecting it from the reinforcing bar catalog.

Grade

Define the grade of the reinforcing bar.

Attributes tab

Use the Attributes to define naming and numbering properties of the strands, stirrups, and mesh bars.

Option

Description

Prefix

Prefix for the part position number.

Start number

Start number for the part position number.

Name

Tekla Structures uses the name in drawings and reports.

Class

Use Class to group reinforcement.

For example, you can display reinforcement of different classes in different colors.

Strand code

Store strand code – With option Store strand code you may choose to store (or not) a user-defined textual attribute TS_STRAND_CODE to part.

Strand code – In field Strand code you may enter a string template for the value of the above mentioned user-defined attribute. The default template is the total number of created strands. The template may contain any text and the predefined fields for:

  • %NUMBERS – is the numbers of created strands with different sizes and/or grades e.g. 10 (for one size & grade) or 6+4 (if two sizes and/or grades has been used).

  • %SIZES – sizes of the strands e.g 1/2 or 1/2 + 3/8.

  • %GRADES – grades of strands.

Strand creation at voids

Create strand at voids – The option Yes will show the strands even though the voids are present. The option No will not show the strand if void is present at any location along the strand path.

Select to cut the strands at void locations from Cut strands at voids.

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