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Designing a Component
Components reports are designed prepared by defining the units and materials to be used in the components report. The name, unit and size (volume, length, area etc.) of the materials are determined.
Designing component is done from the Category Settings dialog. To open the category settings dialog;
Click the Tools/Design Components line in the classic menu and the Tools/Quantity Report/Design Components icon in the ribbon menu .
The Category Settings dialog will open.
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Defining a Unit
First, the units that determine the size of the materials that make up the quantity are defined. For this;
Click the Tools/Design Components line in the classic menu and the Tools/Quantity Report/Design Components icon in the ribbon menu .
In the Category Settings dialog that opens , click the Units folder from the list on the left and click the Create New Unit button on the right .
A line with the name New Unit 1 will appear on the left . On the right, there will be other editable lines belonging to the new unit. The properties of this unit will be determined in these lines.
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Name: The name of the unit is written. For example, if the unit is meter, it is meter, if it is square meter, it is m² etc. You can give names.
Type: Determines which unit the component we define as unit represents. One of the options of length, area, volume, mass, time, energy, currency, count and general is selected from the list.
Conversion ratio: The value to be taken as basis is entered when converting the defined new unit to the unit written next to the line. Each size listed on the type line has default values. For example, when the height size is selected in the type line, the default height value is 1 meter. If the unit is used as centimeter, for example, it is converted to centimeter by writing 100 to the conversion rate.
The default units of sizes in the type list are:
Length -> Meter
Area -> Square meter
Volume -> Cubic meter
Mass -> Kilogram
Time -> Minutes
Energy -> Joules
There are no default units of currency, count and generalsize.
Defining a Material
For the components report, the materials to be used in the quantity are defined. The name, unit and size (volume, length, area etc.) of the materials are determined.
Click the Tools/Design Components line in the classic menu and the Tools/Quantity Report/Design Components icon in the ribbon menu .
In the Category Settings dialog that opens, click the Materials folder from the list on the left and click the Create New Material button on the right .
A line with the name New Material 1 will appear in the list on the left . On the right side, there will be other changeable lines belonging to the new material.
Arrange the sections on the right according to the material properties you want to create.
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Name: The name of the material is entered. (Paint, plaster, concrete etc.)
Short identifier: Description of the material can be entered.
Description: Detailed information about the material can be entered on this line.
Proportional to: It is selected which size will be proportioned to the material. The explanations of the terms in the rate list are as follows:
Constant: Material will be used on a unitless scale.
Proportional to length: The material will be used in proportion to the length (eg wire, reinforcement, handrail, etc.).
Proportional to the area: The material will be used in proportion to the area size (eg tiles, parquet, interior plaster, etc.).
Proportional to volume: The material will be used in proportion to the volume measure (eg concrete, water, etc.).
Proportional to count: The material will be used in units.
Quantity ratio 1: The information on how much the material is in terms of Unit 1 unit defined in the lower line of the dialog is entered.
Unit 1: Quantity ratio of the material defined in the upper line of the dialog determines the unit of the quantity 1 . One of the units previously defined with the Units button is selected from the list .
Quantity ratio 2: The information on how much the material is in Quantity ratio 1 as per Unit 2 unit defined at the bottom of the dialog is entered.
Unit 2: Quantity ratio of the material defined in the upper line of the dialog determines the unit of the 2 quantity. One of the units previously defined with the Units button is selected from the list .
Unit cost: The value of the unit cost of the material is entered.
Currency: The currency in which the material cost calculation will be made is determined. One of the currencies previously defined with the Units button is selected from the list.
Saving Defined Building Components
Components identified with Design Components can be saved in the archive to be used at different times in the same dialog.
Complete the new component defining process.
Click the Save Component button on the right in the Category Settings dialog .
The selected component will be saved in the archive.
Loading Components
Components that are defined and saved in the archive by Design Components can be loaded from the archive to be used at different times in the same dialog.
Click the Load button on the right in the Category Settings dialog .
The Load Component dialog will open. Select the wanted component from this dialog.
Clicking the OK button will install your component.
Click the Delete button in the Load Components dialog when you want to delete the saved building component .
Assigning Components to Objects
Assigning the materials defined with the Design Components command to the objects is done with the Add New Components button on the Components tab of each object's own setting dialog .
Select the object to which you want to assign a building component and open the Object Settings dialog.
Click on the Components tab in the Object Settings dialog .
The Component Selection dialog will open when you click the Add New Components button .
In this dialog, select the material you want to use from the list on the left.
Set the parameters on the right.
Clicking the OK button will close the Component Selection dialog.
The selected material will appear in the Components tab. If wanted, more than one material can be assigned.
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The objects that can be assigned materials in the program are:
Wall, zone, door/window, column, beam, shearwall, slab, raft foundation, strip footing, single footing, roof, roof plane, stairs, library, extruded object, revolved object, pool, exterior veneer, jamb, sweeps.
The parameters available in the component selection dialog are:
In the usage section
No modification: 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: 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%.
Override: This line is marked so that the quantity entered in the “Value 1” line in the same dialog will be used instead of the 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.
Fraction: This line is marked so that the amount determined in the material definition before will be used as the fraction value 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.
Proportional 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 object and material size are as follows:
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Library
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Measure
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Listed
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Explanation
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Constant
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Independent
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The fixed measure used will be used exactly as the amount.
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Length
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Independent
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It means that the length measure found while defining the material will be used exactly as the length value.
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X lenght
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It means that the length of the material will be found by multiplying the length measure found while defining the material and the X length value of the library.
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Y lenght
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It means that the length of the material will be found by multiplying the length measure found while defining the material and the Y length value of the library.
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Z lenght
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It means that the length of the material will be found by multiplying the length measure found while defining the material and the Z length value of the library.
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Area
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Independent
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It means that the area measure found while defining the material will be used exactly as the field value.
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Volume
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Independent
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The volume measurement found when defining the material will be used exactly as the volume value.
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Count
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Independent
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The number measure found while defining the material will be used exactly as the number value.
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Count
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The number measure found while defining the material will be used exactly as the number value.
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Roof
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Measure
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Listed
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Explanation
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Constant
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Independent
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The fixed measure used will be used exactly as the amount.
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Length
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Independent
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It means that the length measure found while defining the material will be used exactly as the length value.
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Perimeter
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It means that the length of the material will be found by multiplying the circumference of the roof with the length measurement found when defining the material.
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Thickness
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It means that the length of the material will be found by multiplying the length measurement found when defining the material and the thickness of the roof.
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Area
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Independent
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It means that the area measure found while defining the material will be used exactly as the field value.
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Area
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By multiplying the area measure found when defining the material with the area of the roof, the area of the material will be found.
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Volume
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Independent
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The volume measurement found when defining the material will be used exactly as the volume value.
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Count
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Independent
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The number measure found while defining the material will be used exactly as the number value.
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Count
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The number measure found while defining the material will be used exactly as the number value.
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Edge count
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The number value found by multiplying the number of sides of the roof with the number of sides found when defining the material means to be used as the number of the material.
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Roof Surface
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Measure
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Listed
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Explanation
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Constant
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Independent
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The fixed measure used will be used exactly as the amount.
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Length
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Independent
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It means that the length measure found while defining the material will be used exactly as the length value.
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Perimeter
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It means that the length of the material will be found by multiplying the circumference of the roof with the length measurement found when defining the material.
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Thickness
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It means that the length of the material will be found by multiplying the length measurement found when defining the material and the thickness of the roof.
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Area
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Independent
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It means that the area measure found while defining the material will be used exactly as the field value.
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Area
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By multiplying the area measure found when defining the material with the area of the roof, the area of the material will be found.
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Volume
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Independent
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The volume measurement found when defining the material will be used exactly as the volume value.
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Count
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Independent
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The number measure found while defining the material will be used exactly as the number value.
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Count
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The number measure found while defining the material will be used exactly as the number value.
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Edge count
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The number value found by multiplying the number of sides of the roof with the number of sides found when defining the material means to be used as the number of the material.
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Column
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Measure
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Listed
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Explanation
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Constant
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Independent
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The fixed measure used will be used exactly as the amount.
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Length
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Independent
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It means that the length measure found while defining the material will be used exactly as the length value.
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Perimeter
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It means that the length of the material will be found by multiplying the length measurement found while defining the material and the perimeter of the column.
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Height
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It means that the length of the material will be found by multiplying the length of the column with the height of the column.
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Area
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Independent
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The area measure found when defining the material will be used exactly as the area of the material.
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Side area
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It means that the area measure found while defining the material will be used by multiplying it by the sum of the side areas of the column.
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Crosssection area
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It means that the area measure found while defining the material will be multiplied by the cross section of the column.
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Volume
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Independent
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It means that the volume measure found when defining the material will be used exactly as the volume of the material.
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Volume
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It means that the volume measurement found when defining the material will be used by multiplying the column volume.
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Count
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Independent
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The number measure found while defining the material will be used exactly as the material number.
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Count
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Number measure, number of materials found when defining the material
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Door/window
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Measure
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Listed
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Explanation
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Constant
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Independent
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It means that the length measure found while defining the material will be used exactly as the length value.
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Length
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Independent
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It means that the length measure found while defining the material will be used exactly as the length value.
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Width
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It means that the length of the material will be found by multiplying the length measurement found when defining the material and the width of the door / window.
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Thickness
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It means that the length of the material will be found by multiplying the length measurement found when defining the material and the thickness of the door / window.
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Area
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Independent
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It means that the area measure found while defining the material will be used exactly as the amount.
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Area
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It means that the area measure found when defining the material will be multiplied by the area of the door / window.
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Volume
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Independent
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The volume measure found when defining the material will be used exactly as the volume of the material.
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Count
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Independent
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The number measure found while defining the material will be used exactly as the material number.
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Count
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The number measure found while defining the material will be used exactly as the material number.
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Openings count
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When defining the material, the number measure is multiplied by the opening number (the program automatically finds it according to the structure of the door / window) and it means that the opening count will be found.
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Wall
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Measure
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Listed
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Explanation
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Constant
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Independent
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The fixed measure used will be used exactly as the amount.
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Length
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Independent
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It means that the length measure found while defining the material will be used exactly as the length value.
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Front length
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It means that the length of the material will be found by multiplying the length of the material found when defining the material and the length of the front side of the wall according to the viewing direction.
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Back length
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It means that the length of the material will be found by multiplying the length of the material found when defining the material and the length of the back of the wall according to the viewing direction.
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Average length
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It means that the length of the material will be found by multiplying the length measurement found when defining the material and the average length value found from the length of the front and back sides of the wall.
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Average height
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It means that the length of the material will be found by multiplying the length value found when defining the material and the average length of the left and right ends of the wall.
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Thickness
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It means that the length of the material will be found by multiplying the length measurement found when defining the material and the wall thickness.
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Area
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Independent
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It means that the area measure found while defining the material will be used exactly as the amount.
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Front area
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The value to be found by multiplying the area measure found while defining the material and the area of the surface on the front with respect to the viewing direction of the wall means to be used as the material area.
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Back area
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The value to be found by multiplying the area measure found while defining the material with the area of the surface on the back with respect to the viewing direction of the wall, means to be used as the material area.
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Front and back area
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When defining the material, the value found by multiplying the sum of the front and back areas of the wall with the area measure, means that it will be used as the material area.
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Start area
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The value to be found by multiplying the area measure found when defining the material and the area of the surface on the left according to the viewing direction of the wall will be used as the material area.
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End area
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The value to be found by multiplying the area measure found when defining the material and the area of the surface on the right according to the viewing direction of the wall means to be used as the material area.
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Start and end area
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When defining the material, the value found by multiplying the sum of the area measure found on the left and right side of the wall and the surface areas on the left and right of the wall means that the material area will be used.
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Top area
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The value to be found by multiplying the area measure found when defining the material with the area of the surface remaining on the wall means to be used as the material area.
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Bottom area
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The value to be found by multiplying the area of the area found when defining the material with the area of the surface under the wall means to be used as the material area.
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Top and bottom area
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The value found by multiplying the total area of the area found when defining the material and the surface areas on the upper and lower sides of the wall will be used as the material area.
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Side area
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The total value found by multiplying each of the surfaces on the sides of the wall with the area measure found when defining the material means to be used as the material area.
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Volume
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Independent
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The volume measurement found when defining the material will be used exactly as the volume value.
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Volume
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It means that it will be used by multiplying the volume measurement found when defining the material and the wall volume.
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Count
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Independent
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The number measure found while defining the material will be used exactly as the material number.
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Count
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The number measure found while defining the material will be used exactly as the material number.
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Stairs
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Measure
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Listed
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Explanation
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Constant
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Independent
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The fixed measure used will be used exactly as the amount.
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Length
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Independent
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It means that the length measure found while defining the material will be used exactly as the length value.
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Line of travel length
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It means that the length of the material will be found by multiplying the length measurement found when defining the material and the length of the exit line of the ladder.
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Area
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Independent
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The area measure found when defining the material will be used exactly as the area of the material.
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Top area
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It means that the area measure found when defining the material will be multiplied by the area of the upper surface of the ladder.
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Volume
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Independent
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The volume measure found when defining the material will be used exactly as the volume of the material.
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Count
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Independent
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The number measure found while defining the material will be used exactly as the material number.
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Count
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The number measure found while defining the material will be used exactly as the material number.
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Riser count
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The number measure found when defining the material will be used by multiplying the number of rises of the stair.
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Beam
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Measure
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Listed
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Explanation
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Constant
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Independent
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The fixed measure used will be used exactly as the amount.
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Length
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Independent
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It means that the length measure found while defining the material will be used exactly as the length value.
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Front length
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It means that the length of the material will be found by multiplying the length of the front side of the beam with respect to the beam viewing direction.
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Back length
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It means that the length of the material will be found by multiplying the length of the length measured while defining the material and the length of the back side of the beam according to the viewing direction.
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Average length
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It means that the length of the material will be found by multiplying the length value found when defining the material and the average length value found from the length of the front and back sides of the beam.
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Average height
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It means that the length of the material will be found by multiplying the length value found by taking the average of the height of the left and right ends of the beam with the length measure found while defining the material.
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Thickness
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It means that the length of the material will be found by multiplying the length measure found when defining the material and the thickness of the beam.
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Area
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Independent
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It means that the area measure found while defining the material will be used exactly as the amount.
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Front area
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It means that the value to be found by multiplying the area measure found when defining the material with the area of the front surface according to the beam's viewing direction will be used as the material area.
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Back area
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It means that the value to be found by multiplying the area measure found while defining the material with the area of the surface on the back with respect to the beam's viewing direction will be used as the material area.
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Front and back area
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The value found by multiplying the area measure found when defining the material and the sum of the front and back areas of the beam will be used as the material area.
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Start area
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The value to be found by multiplying the area measure found while defining the material and the area of the surface on the left according to the beam's viewing direction will be used as the material area.
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End area
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The value to be found by multiplying the area measure found while defining the material and the area of the surface on the right according to the beam's viewing direction, means to be used as the material area.
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Start and end area
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When defining the material, the value found by multiplying the sum of the area measure found on the left and right sides of the beam with the surface area on the left and right means the material area will be used.
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Top area
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The value to be found by multiplying the area measure found when defining the material with the area of the surface remaining on the beam, means to be used as the material area.
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Bottom area
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The value to be found by multiplying the area of the area found when defining the material and the area of the surface under the beam means to be used as the material area.
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Top and bottom area
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The value found by multiplying the sum of the area measure found while defining the material and the surface areas on the upper and lower sides of the beam will be used as the material area.
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Side area
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The total value found by multiplying each of the surfaces on the sides of the beam with the area measure found when defining the material means to be used as the material area.
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Volume
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Independent
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It means that the volume measurement found when defining the material will be used exactly as the volume value.
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Volume
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It means that the volume measure found when defining the material will be used by multiplying the beam volume.
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Count
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Independent
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The number measure found while defining the material will be used exactly as the material number.
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Count
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The number measure found while defining the material will be used exactly as the material number.
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Shearwall
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Measure
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Listed
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Explanation
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Constant
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Independent
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The fixed measure used will be used exactly as the amount.
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Length
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Independent
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It means that the length measure found while defining the material will be used exactly as the length value.
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Front length
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It means that the length of the material will be found by multiplying the length of the material found while defining the material and the length of the front side according to the shearwall viewing direction.
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Back length
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It means that the length of the material will be found by multiplying the length of the back side according to the viewing direction of the shearwall with the length measure found while defining the material.
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Average length
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It means that the length of the material will be found by multiplying the length measurement found when defining the material and the average length value found from the length of the front and back sides of the shearwall.
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Average height
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It means that the length of the material will be found by multiplying the length value found by taking the average of the height of the left and right ends of the shearwall with the length measure found while defining the material.
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Thickness
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It means that the length of the material will be found by multiplying the length measure found when defining the material and the thickness of the shearwall.
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Area
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Independent
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It means that the area measure found while defining the material will be used exactly as the amount.
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Front area
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The value to be found by multiplying the area measure found while defining the material and the area of the surface on the front according to the viewing direction of the shearwall will be used as the material area.
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Back area
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It means that the value to be found by multiplying the area measure found while defining the material with the area of the surface on the back side according to the viewing direction of the shearwall will be used as the material area.
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Front and back area
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The value found by multiplying the area measure found while defining the material and the sum of the front and back areas of the shearwall will be used as the material area.
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Start area
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The value to be found by multiplying the area measure found while defining the material and the area of the surface on the left according to the viewing direction of the shearwall will be used as the material area.
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End area
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The value to be found by multiplying the area measure found when defining the material and the area of the surface on the right according to the viewing direction of the shearwall will be used as the material area.
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Start and end area
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The value found by multiplying the area measure found when defining the material and the sum of the left and right surface areas of the shearwall will be used as the material area.
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Top area
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The value to be found by multiplying the area measure found when defining the material with the area of the surface remaining on the shearwall means to be used as the material area.
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Bottom
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The value to be found by multiplying the area size found when defining the material and the area of the surface under the shearwall means to be used as the material area.
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Top and bottom area
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It means that the value found by multiplying the area measure found when defining the material and the sum of the surface areas on the upper and lower sides of the shearwall will be used as the material area.
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Side area
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The total value found by multiplying each of the surfaces on the sides of the shearwall with the area measure found when defining the material means to be used as the material area.
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Volume
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Independent
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It means that the volume measurement found when defining the material will be used exactly as the volume value.
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Volume
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It means that the volume measure found when defining the material will be used by multiplying the shearwall volume.
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Count
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Independent
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The count measure found while defining the material will be used exactly as the material count.
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Count
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The count measure found when defining the material, as the count of materials
It means it will be used exactly.
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Zone
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Measure
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Listed
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Explanation
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Constant
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Independent
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The fixed measure used will be used exactly as the amount.
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Length
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Independent
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It means that the length measure found while defining the material will be used exactly as the length value.
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Perimeter
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It means that the length of the material will be found by multiplying the length measurement found while defining the material and the perimeter of the column.
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Area
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Independent
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It means that the area measure found while defining the material will be used exactly as the amount.
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Top area
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The value to be found by multiplying the area measure found when defining the material with the area of the surface remaining on the shearwall means to be used as the material area.
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Bottom
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The value to be found by multiplying the area size found when defining the material and the area of the surface under the shearwall means to be used as the material area.
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Top and bottom area
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It means that the value found by multiplying the area measure found when defining the material and the sum of the surface areas on the upper and lower sides of the shearwall will be used as the material area.
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Volume
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Independent
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It means that the volume measurement found when defining the material will be used exactly as the volume value.
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Volume
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It means that the volume measure found when defining the material will be used by multiplying the shearwall volume.
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Count
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Independent
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The count measure found while defining the material will be used exactly as the material count.
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Count
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The count measure found when defining the material, as the count of materials
It means it will be used exactly.
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Slab
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Measure
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Listed
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Explanation
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Constant
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Independent
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The fixed measure used will be used exactly as the amount.
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Length
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Independent
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It means that the length measure found while defining the material will be used exactly as the length value.
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Perimeter
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It means that the length of the material will be found by multiplying the perimeter of the slab with the length measure found while defining the material.
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Area
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Independent
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It means that the area measure found while defining the material will be used exactly as the amount.
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Top area
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The value to be found by multiplying the area measure found when defining the material with the area of the surface remaining on the slab means to be used as the material area.
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Bottom area
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It means that the value to be found by multiplying the area measure found while defining the material and the area of the surface under the slab will be used as the material area.
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Top and bottom area
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The value found by multiplying the area measure found when defining the material and the sum of the surface areas on the upper and lower sides of the slab will be used as the material area.
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Volume
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Independent
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It means that the volume measurement found when defining the material will be used exactly as the volume value.
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Volume
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It means that the volume measurement found when defining the material will be used by multiplying the floor volume.
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Count
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Independent
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The number measure found while defining the material will be used exactly as the material number.
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Count
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The count measure found while defining the material will be used exactly as the material count.
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Raft Foundation
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Measure
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Listed
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Explanation
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Constant
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Independent
...
The fixed measure used will be used exactly as the amount.
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Length
...
Independent
...
It means that the length measure found while defining the material will be used exactly as the length value.
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Perimeter
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It means that the length of the material will be found by multiplying the perimeter of the foundation with the length measure found while defining the material.
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Area
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Independent
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It means that the area measure found while defining the material will be used exactly as the amount.
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Top area
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The value to be found by multiplying the area measure found when defining the material with the area of the surface remaining on the slab means to be used as the material area.
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Bottom area
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The value to be found by multiplying the area measure found when defining the material and the area of the surface under the floor means to be used as the material area.
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Top and bottom area
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When the material is defined, the value found by multiplying the sum of the area measure found at the top and bottom of the foundation and the surface areas remaining at the top and bottom of the foundation means to be used as the material area.
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Volume
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Independent
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The volume measurement found when defining the material will be used exactly as the volume value.
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Volume
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It means that the volume measurement found when defining the material will be used by multiplying the foundation volume.
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Count
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Independent
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The number measure found while defining the material will be used exactly as the material number.
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Count
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The number measure found while defining the material will be used exactly as the material number.
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Strip Footing
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Measure
...
Listed
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Explanation
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Constant
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Independent
...
The fixed measure used will be used exactly as the amount.
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Length
...
Independent
...
It means that the length measure found while defining the material will be used exactly as the length value.
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Average length
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It means that the length of the material will be found by multiplying the length measurement found while defining the material and the average length value found from the length of the front and back sides of the strip footing.
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Thickness
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It means that the length of the material will be found by multiplying the length measurement found when defining the material and the thickness of the strip footing.
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Height
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It means that the length of the material will be found by multiplying the length measurement found while defining the material and the height of the strip footing.
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Area
...
Independent
...
It means that the area measure found while defining the material will be used exactly as the amount.
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Volume
...
Independent
...
The volume measurement found when defining the material will be used exactly as the volume value.
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Volume
...
It means that it will be used by multiplying the volume measurement found when defining the material and the volume of the strip footing.
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Count
...
Independent
...
The number measure found while defining the material will be used exactly as the material number.
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Count
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The count measure found while defining the material will be used exactly as the material count.
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Single Footing
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Measure
...
Listed
...
Explanation
...
Constant
...
Independent
...
The fixed measure used will be used exactly as the amount.
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Length
...
Independent
...
It means that the length measure found while defining the material will be used exactly as the length value.
...
Perimeter
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It means that the length of the material will be found by multiplying the perimeter of the single footing with the length measure found while defining the material.
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Height
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It means that the length of the material will be found by multiplying the length measurement found when defining the material and the height of the single footing.
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Area
...
Independent
...
It means that the area measure found while defining the material will be used exactly as the amount.
...
Volume
...
Independent
...
The volume measurement found when defining the material will be used exactly as the volume value.
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Volume
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It means that the volume measurement found when defining the material will be used by multiplying the floor volume.
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Count
...
Independent
...
The number measure found while defining the material will be used exactly as the material number.
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Count
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The count measure found while defining the material will be used exactly as the material count.
Components Quantity Reports
Click on Tools/Calculations/Components Report line in the classic menu, and Tools/Quantity Report/Components Report icon in the ribbon menu .
The Select Report dialog will open.
Select from the dialog Components Report-Grouped by Components, Components Report-Grouped by Stories or General Components Report.
Click the OK button. The report will be generated.
Construction Cost Estimating Reports
For the cost calculation, the currency unit, the unit cost of the material and the amount of the material used in the material are defined. After this stage, the material in question is assigned to the object and the report is prepared by selecting the cost account in the quantity of building components.
Click on Tools/Calculations/Components Report line in the classic menu, and Tools/Quantity Report/Components Report icon in the ribbon menu .
The Select Report dialog will open.
From dialogue, select the Construction Cost Estimating line.
Click the OK button. The report will be generated.
Creating Quantity Report According to DIN277 Standard
In the classical menu Tools/Calculations/DIN277 Report the line, the ribbon menu Tools/Quantity Report/DIN277 Report click the icon.
Quantity reports will be formed.
Creating Quantity Report According to II BV Standard
In the classical menu Tools/Calculations/II BV Report the line, the ribbon menu Tools/Quantity Report/II BV Report click the icon.
In the dialog that opens, check the required options.
Quantity reports will be formed.
Import from OSKA
To share data with Oska, the version of Oska program that integrates with ideCAD must be installed on your computer. The Oska program is located in the C drive, under the E-oska folder, and in ideCAD it is accepted as this folder by default.
If the program is installed in another folder, changes must be made to the oska.ini file under the ideCAD installation folder . When you open the Oska.ini file with the Notepad program for example, the contents of the file will appear as follows.
[OSKA_DB_IMPORT]
Value = C: \ e-Oska \ Oska_IdeCAD \ oskaide.osx
[OSKA_EXPORT_FOLDER]
Value = C: \ e-Oska \ Oska_IdeCAD \
[OSKA_CONVERTER]
Value = OskaCAD.exe
The "C: \ e-Oska" target directory written in the file content should be changed to the name of the directory where the Oska program was installed and the file should be saved as modified.
Pose uploading from OSKA to ideCAD can be done for two different situations. Custom Poses and Institution Poses defined by the user.
To upload a pose from OSKA;
Click the Tools/Design Components line in the classic menu , click Tools/Quantity Report/Design Components in the ribbon menu .
The Category Settings dialog will open.
Dialogue in Load Components From OSKA (User) or Load Components From OSKA (PWA), click one of the buttons.
Select the OSKA database (* .osx).
Poses will be loaded to be used in the project.
Import from AMP
To import building components from AMP to ideCAD;
Click the Tools/Design Components line in the classic menu , click Tools/Quantity Report/Design Components in the ribbon menu .
The Category Settings dialog will open.
Click the Load Components From AMP button in the dialog.
Switch to the folder where the AMP database is located and double click the mdb file.
Poses will be loaded to be used in the project.
Export Components Database to OSKA
For data sharing with OSKA to the program ideCAD for data sharing by providing integration with the version of the OSKA to the program ideCAD be installed on your computer that allows integration with the version required. OSKA program is located in the C drive under the E-oska folder, and in ideCAD it is accepted as this folder by default.
If the program is installed in another folder, changes must be made to the oska.ini file under the ideCAD installation folder . When you open the Oska.ini file with the Notepad program for example, the contents of the file will appear as follows.
[OSKA_DB_IMPORT]
Value = C: \ e-Oska \ Oska_IdeCAD \ oskaide.osx
[OSKA_EXPORT_FOLDER]
Value = C: \ e-Oska \ Oska_IdeCAD \
[OSKA_CONVERTER]
Value = OskaCAD.exe
The "C: \ e-Oska" target directory written in the file content should be changed to the name of the directory where the Oska program was installed and the file should be saved as modified.
In order to transfer the components in the project to the OSKA program;
Click the Tools/Quantity Report/Export/Export to OSKA icon in the ribbon menu .
You will receive a warning that the transfer has been made.
Export Components Database To AMP
To transfer the components in the project to the AMP program;
Click the Tools/Quantity Report/Export/Export to AMP icon in the ribbon menu .
You will receive a warning that the transfer has been made.
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building component and assigning it to the objects. Defining the building component, saving, loading, searching for objects, creating quantity reports are explained in detail under this title.
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