Versions Compared

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.

...

With the Retaining Wall Settings command, settings such as dimensions, drainage, stand reinforcement, drawing, material selection, structural material can be accessed.

Location of Retaining Wall Settings Dialog

The column retaining wall that appears after running the retaining wall command is also available in the auxiliary toolbar.

...

General Tab

...

Specifications

Description

Retaining wall ID

Image Modified

Enter the name of the retaining wall that will appear in the meter and report.

Pattern

Image Modified

Select the color and hatch type of the retaining wall from the window that opens when clicked.

Retaining wall color

Color

Image Removed
Image Added

Select the color and hatch type of the retaining wall from the window that opens when clicked.

Line type

Image Modified

The line type of the line forming the retaining wall is selected in the plan. Clicking the down arrow buttons to the right of the boxes opens the list of line types. From this list, the desired line type is selected by clicking with the left mouse button.

Material

Image Modified

The material to be covered on the retaining wall in the solid model is selected. The retaining wall is covered with the selected material and displayed in the solid model like this.

Texture world length

Image Modified

Texture length is entered. For example; If 1 unit is entered, the selected material texture width is taken as 1 unit and covered on the selected object. Considering that the texture is in the form of a square, the object surfaces are covered with 1x1 textures arranged side by side.

Name color

Image Added

The name color of the retaining wall visible on the plan is selected. When the color box is clicked, the appropriate color is selected from the window that opens.

Name height

Image Added

The name height of the retaining wall visible on the plan is selected.

Draw name

Image Modified

If checked, the name of the retaining wall appears on the drawing screen.

Delta

Image Modified

These are the options that determine where the retaining wall will be defined. If the virtual axis joining the nodes at the two ends of the retaining wall will coincide with the upper edge of the retaining wall, top is marked, if it coincides with the lower edge, bottom option is marked, and the middle option is marked if it will pass through the middle. If the virtual beam axis will pass through another line, user defined option is checked and the distance to the upper edge of the retaining wall is entered in the lower data entry box.

Mirrored

Image Modified

It takes the mirrored of the retaining wall according to its axis.

Drainage and soil parameters

Image Modified

In the retaining wall drawings, you can edit the diameters of the weep hole and drain pipe to be shown on the wall, and the soil proctor percentage information of the backfill ground in this section.

S-irons

Image Added

Diameter and count of s-irons are determined

Reinforcement chairs

Image Removed
Image Added

You can arrange the diameter, dimensions of the reinforcement chairs to be used on the foundation of the retaining wall and how many will be used per square meter from this section.

Dimensions Tab

...

Specifications

Description

Dimensions

Image Modified

Dimensions are given to the program according to the drawing shown in the dialog.

Merlon exists

Image Modified

If there will be merlon, the option is selected and merlon dimensions are entered.

Soil parameters

Image Modified

Adjust the heights of the soil on the active and passive side. You can also define the angle that the soil on the active side makes with the retaining wall. Adjust the heights of the soil on the active and passive side. You can also define the angle that the soil on the active side makes with the retaining wall. You can instantly watch the changes you have made in the drawing on the right.

Analysis Parameters Tab

...

Specifications

Description

Static

Structural material

Image Modified

Select the

reinforced concrete

structural material to be used in the retaining wall calculation and reinforced concrete from the list.

Short period

Design spectral response acceleration

coefficient

parameter

Image Modified

Enter the predicted

Sds

SDS value for the retaining wall according to TBDY 2018.

Static

-equivalent

earthquake reduction coefficient (r)

Image Modified

According to TBDY 2018 Table 16.7, the r coefficient to be used in the calculation of soil pressures is selected.

Image RemovedFloor

Soil unit

volume

weight

Image Modified

Enter the unit weight of the

floor

soil to be used as backfill.

Soil

skid

shear resistance angle

Image Modified

Enter the

slip

soil shear resistance angle value according to the type of backfill soil.

Surge load

Overload (Active side)

Image Modified

If available, enter the

discharge load

overload value on the active side.

Backfill cohesion

coefficient

(cd)

Image Modified

Enter the cohesion value of the backfill soil.

Friction

angle

between

foundation

retaining wall and

ground:

soil

Image Modified

You can neglect the friction, use the calculated friction value, or enter your calculated friction angle value.

Floor class

Soil grade

Image Removed
Image Added

You can select the ground class according to TBDY 2018 from the list.

Ground bearing strength

Soil design resistance (qt)

Image Removed
Image Added

The basic bearing strength for TBDY 2018 is the design strength (q t ). It is determined according to the soil report. The basic bearing strength design strength q t is the ratio of the soil characteristic strength q k to the strength coefficient value of 1.4. (TBDY 2018 Article 16.8.2)

Soil

Ground cohesion

coefficient

(c)

Image Removed
Image Added

Enter the cohesion value of the soil.

Floor

Soil type

Image Removed
Image Added

The determined ground type is selected from the list.

Shear

strength

resistance (cu)

Image Removed
Image Added

The undrained shear strength value determined in cohesive soils is entered.

Friction coefficient

Image Removed
Image Added

Give the value of the friction coefficient of the ground according to the type of ground.

...

Safety Coefficients Tab

...

Specifications

Explained

Tipping

Overturning safety

coefficient

factor

Image Removed
Image Added

The

coefficients

factors to be used in the overturning safety calculations are determined from the relevant boxes for earthquake and non-earthquake situations.

Slip safety

coefficient

factor

Image Removed
Image Added

The

coefficients

factors to be used in slip safety calculations are determined from the relevant boxes for seismic and non-seismic conditions.

Passive

coefficient of

resistance strength factor

Image Removed
Image Added

The

coefficients

factors to be used in the passive resistance strength safety calculations are determined from the relevant boxes for earthquake and non-earthquake situations.

Wholesale collapse coefficient

Image Removed

Downfall strength factor

Image Added

The

coefficients

factors to be used in the

wholesale collapse

downfall strength safety calculations are determined from the relevant boxes for earthquake and non-earthquake situations.

Tensile stress height

image-20240205-093300.pngImage Added

The maximum value of the tensile stress height ratio that is expected to occur from the top soil level down in clayey soils is determined here.

Negative ground stress

control

check

Image Removed
Image Added

As a result of the foundation analysis, negative soil stresses may occur. If this option is selected, if there is a fundamental negative stress, the program will give a message of negativity at the end of the calculation.

...

Components Tab

...

Add Building Components : Assigns the building materials defined for detailed building components metrics to the object.

  • Click on the building components button.

  • The Component Selection dialog will open.

  • In this dialog, click on the folder related to the material from the list on the left. Click on the material you want to use.

  • Set the parameters on the right.

  • Click the OK button. The "Component Selection" dialog will be closed. A summary line of the material will appear in the Building Components tab. More than one material assignment can be made to an object.     

The parameters available in the component selection dialog are:

...

In the usage section;

No changemodification: The amount of material to be assigned for the object in question is marked when it is desired to be used in the size that was previously specified in the material definition.

Percentage ratio: This line is marked when it is desired to be used with the percentage of the amount previously determined in the material definition, as much as the value entered in the "Value 1" line in the same dialog. For example, if the material quantity is 70, if the line “Value 1” says 40, it means the material amount will be used up to 40 * 70%.

Newly definedOverride: This line is marked to use so that the amount quantity entered in the "Value 1" “Value 1” line in the same dialog will be used instead of the amount quantity previously determined in the material definition.

Multiplier: This line is marked in order to use the value found at the end of the multiplication of the value entered in the "Value 1" line in the same dialog with the amount previously determined in the material definition.

FractionalFraction: This line is marked so that the amount determined in the material definition before will be used as much as the fraction value formed created by the values ​​entered in the "Value 1" and "Value 2" lines in the same dialog. "Value 1" is the denominator "Value 2" is the denominator.

ProportionProportional to: It is determined to what scale-area, circumference, length etc.-, region-side area, top, edge etc.- the material will be proportioned to. The content of the proportional list box is automatically determined according to the object and the size of the material. For example, a different list will be created if an operation is made for the column, a different list will be created for the library, a different list for the volume, and a different list for the field.

The lines that appear in the Proportion list according to the ladder object and material size are as follows:

Retaining wall

Measure

Listed

Explanation

Constant

Independent

The fixed measure used will be used exactly as the amount.

Length

Independent

It means that the length measure found while defining the material will be used exactly as the length value.

Domain

Area

Independent

The area measure found when defining the material will be used exactly as the area of ​​the material.

Volume

 

Independent

The volume measure found when defining the material will be used exactly as the volume of the material.

 

volume

Volume

The volume measure found when defining the material will be used exactly as the volume of the material.

Number

Count

Independent

The

number

count measure found while defining the material will be used exactly as the material

number.

count.

...