Page Comparison

Summary Information

The summary information about the line where the cursor is located is given in the form of Story, Name, and Position in the name of the dialog.

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For example, Basement 1, K03

Using the Shift key

In this tab, you can select more than one row with the Shift key, enter a value by double-clicking any cell whose value is open to change, and make that value apply to all selected rows.

Using the Ctrl key

Ctrl key, on the other hand, selects the lines in between one by one.

Reinforcement calculator

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Calculates the amount of rebar, in area, for the selected diameter and span.

Select

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Selects the object on the line with the cursor. When the concrete dialog is closed, you can take action for the selected element.

All Stories

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It lists the slabs on the screen throughout the entire story.

Previous

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The cursor moves to the previous line.

Next

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The cursor goes to the next line.

Filter

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It is used to define certain conditions and filter only the elements that satisfy that condition.

Recalculate

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The element rebuilds its concrete. The regulation calculations related to concrete and rebars are also made again. It may be more appropriate to repeat the structure analysis instead of concrete in important changes.

Ok

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It saves the changes made and closes the dialog.

Cancel

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Closes the dialog without saving the changes made.

DS

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It is the rebae fixing column. If marked, the rebar is fixed. DS is automatically marked when changes are made in beam rebar, and when concrete is made, the beam rebar also remains constant. If DS is not marked, when concrete is made, beam rebars are determined again according to rebar selection conditions.

ID

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It is the name of the beam in the plan. (K1, K101, K10 etc.) In case of negativity, the term related to negativity is added next to the name. Like K101 (M).

Story

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The name of the story where the beam is located appears in this cell.

B, H

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It is the width and height of the beam, respectively. You can change the dimensions by double clicking in the B and H cells. When the size is changed, the beam rebar calculation is made for that beam according to the changed dimensions.

L-upper

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It is the value in terms of number and diameter of the rebar located on the left support section of the beam. You can make changes by double-clicking the cell.

L-under

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It is the value of the rebar under the left support section of the beam in terms of number and diameter. You can make changes by double-clicking the cell.

Mount

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It is the value of the beam assembly rebar in terms of number and diameter. You can make changes by double-clicking the cell.

Bent-up

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It is the value of beam pleating rebar in terms of number and diameter. You can make changes by double-clicking the cell.

Straight

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It is the value of beam straight rebar in terms of number and diameter. You can change by double clicking the cell.

R-upper

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It is the value of the rebar on the right support section of the beam in terms of number and diameter. You can make changes by double-clicking the cell.

R-under

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It is the value of the rebar under the right support section of the beam in terms of number and diameter. You can make changes by double-clicking the cell.

Lateral

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It is the diameter and spacing of the beam stirrup in the middle zone and densification zone, respectively. You can make changes by double-clicking the cell.

Body

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It is the value of the beam body rebar in terms of number and diameter. You can make changes by double-clicking the cell.

Accessories section (available - required - excess)

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At the left support of the beam, upper and lower; in the middle; clearance and mounting; in the right bracket; The sum of the available / required and surplus reinforcement areas is given as top and bottom. Just below, the loading combination of the reinforcement calculation and the moment values ​​of that combination are also written.

Sol moment0= Kiriş sol mesnetinde, moment sıfır noktasının, kiriş sol ucuna olan mesafesidir. Değer istenirse değiştirilebilir. Kiriş detaylarında pilyenin kırım mesafesi,  buraya yazan değer kadar alınır.

Sağ moment0= Kiriş sağ mesnetinde, moment sıfır noktasının, kiriş sağ ucuna olan mesafesidir. Değer istenirse değiştirilebilir. Kiriş detaylarında pilyenin kırım mesafesi,  buraya yazan değer kadar alınır.

Tasarım kesme kuvveti (Ve)

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Etriye hesabında kullanılan dizayn kesme kuvvetidir.  

In beams of high ductility level;
Ve = Vdy ± (Mpi + Mpj) / ln
Vd: It is the shear force calculated under the combined effect of the vertical loads and earthquake multiplied by the load coefficients.
Mpi, Mpj: The left and right end are moments of carrying power. In beams of normal ductility level;
Vd value is taken directly as Ve.

Vmax

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It is the maximum shear force that the section can carry.
Vmax = 0.22 fcd bw d
Ve <= Vmax or Ve <= Vr otherwise the cross section is insufficient. The program will then warn of insufficient section for the beam in question.

VCR

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It is the shear force that creates the oblique crack.
Vcr: 0.65 fctd bw d

Vc

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It is the shear force carried by concrete.
And if - Vdy> = 0.5 Vd then Vc = 0 is taken.
Otherwise, Vc = 0.8 Vcr is calculated.
Vd: It is the calculated shear force under the combined effect of vertical loads and earthquake loads multiplied by load factors.

VR

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It is the maximum cutting force value that the section can carry. The design shear force Ve used in stirrup calculation is not allowed to exceed Vr.

The method followed in the calculation of Vr:
Vw: It is the contribution of shear reinforcement to the shear strength.
Vw = (Asw / s) * fywd * d
Vr = Vc + Vw The
contribution of the battery to the shear force is never included in the shear calculation.

Loading

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And the loading that gives its value is the name of the combination.

Three

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Support for cutting calculation ... (left or right)

asw / s

It is the area of ​​1 meter of single arm stirrup found for densification zone as a result of shear force calculation. And it is calculated.

And = Vdy ± (Mpi + Mpj) / ln

If And> Vmax or Ve> Vr, the cross section is insufficient.

And Asw / s is calculated from the formula of = (Asw / s) * fywd * d + 0.8 Vc. S is accepted as 1 meter.

 And if - Vdy> = 0.5 Vd then Vc = 0 is taken.

The asw / s value is never allowed to be less than 0.3 (fctd / fywd) * bw.

Reinforcement

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It is the stirrup reinforcement selected from the Asw / s value. It is shown as the number of stirrups, the diameter of the reinforcement, the middle and the spacing in the densification region, respectively.

Table

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Beam is the plate value. It is the beam width value in rectangular sections. (b)

In symmetrical sections;
b = bw + 1/5 lp

For unsymmetrical sections,
b = b1 + 1/10 lp
lp = a ln

For a, the following values ​​can be used:
Single span simply supported beams a = 1
Continuous beams (side span) a = 0.8
Continuous beams (center span) a = 0.6 For
cantilever beams a = 1.5

Upper limits
b <= bw + 12 hf (symmetrical section)
b <= £ b1 + 6 hf (asymmetric section)

or
b <= bw + ½ an (symmetrical section)
b <= b1 + ½ an (asymmetric section)

Jul. Ack.

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It is the net span value of the beam from inside the column to the inside of the column, from the beam edge to the beam edge if the beam is supported to another beam.

Concrete fck

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The characteristic of concrete is its compressive strength.

Concrete fcd

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The characteristic calculation of concrete is its compressive strength.

Concrete fctd

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The characteristic calculation of concrete is its tensile strength.

Steel fyk

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Reinforcement is the yield strength of steel.

Steel fyd

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It is the calculation strength of reinforcement steel.

Cross reinforcement

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Lists the control information in table form of the cross reinforcement design related information in the tie beams. (TBDY Article 7.6.8)

Ln> 2hk and V <= 1.5 bw d fcd checks are made.

Asd = Vd / (2fydsin (y))

ln: Beam clear span
hk: Beam height
Vd: Shear force calculated under the combined effect of vertical loads and earthquake loads multiplied by load factors

d = hk-spacers

fctd: Concrete characteristic calculation tensile strength
Sin (y): Angle of cross reinforcement bundle with horizontal
Asd: Total area of ​​reinforcement in each cross reinforcement bundle
Cross:
Number and diameter of  cross reinforcement bundle Stirrup: Stirrup value of cross reinforcement bundle in terms of diameter and spacing

Preview and legend

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The section cell preview and what the colors mean are shown.

Material version for DGT

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Section cells and reinforcements are displayed according to the concrete and reinforcement material model criteria defined in TS500.

Material model for ŞGDT

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The section cells and reinforcements are displayed according to the ŞGDT criteria for the concrete and reinforcement material model defined in TBDY.

I tip

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Shows the arrangement of fibers and reinforcements at the i-end of the beam.

Openness

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Shows the fiber and reinforcement arrangement in the beam span.

J tip

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Shows the fiber and reinforcement arrangement at the j end of the beam.

Table of forces

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Load:  The name of the respective load or load combinations.
i: The left end of the element in the horizontal element is the lower end of the element in the vertical element.
j: The right end of the element in the horizontal element is the upper end of the element in the vertical element.
N: The axial force of the element
V2, V3:  The shear forces of the element in the 2 and 3 directions.
T: The torsion moment of the element.
M2: It is the bending moment of the element in the 2 (minor) direction.
M3: It is the bending moment of the element in the 3 (major) direction.

Design results

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After the analysis, the regulation conditions have been applied, therefore it shows the end forces that have undergone changes and going to the design. In addition, the values ​​used are shown in bold. End forces are values ​​calculated on the element local axes.

Raw results

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After analysis, it shows the raw end forces that are not applied to the regulation conditions. End forces are effects on the element local axes.

Global results

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After the analysis, these are the values ​​in global coordinates of the extreme forces that are not applied regulation conditions.

Show results separately

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For 4 modal analysis cases, 4 different results are obtained from each earthquake loaded combination. If you want the program to display the values ​​obtained for each modal state one by one, you should check this option.

Show greatest results

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The biggest values ​​of 4 different results obtained from each load combination for 4 different modal cases are shown in the table.

Moments and forces

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M values ​​indicate the moments around the respective axis according to the global coordinate axis set, and the F values ​​indicate the forces in the respective axis direction.

Mr/Mdizayn: Kiriş taşıma gücü ve dizayn momenti değerleridir.

Mr (-)/Mr(+): Kesitin çekme ve basınç bölgelerinde hesaplanan taşıma gücü momentleridir.

As üst: Kesitin üst bölümlerinde bulunan toplam donatı alanlarıdır.

As alt: Kesitin alt bölümlerinde bulunan toplam donatı alanlarıdır.

Kayma güvenliği: Bu mesajı gördüyseniz, kirişte kesme kuvveti kontrolleri aşılıyor demektir.

Sehim aşıyor:  Bu mesajı gördüyseniz, kirişte sehim kontrolü sağlamıyor demektir.

Maksimum pursantaj aşıldı: Bu mesajı gördüyseniz, kirişte maksimum pursantaj kontrolü sağlamıyor demektir.

TS500 Dengeli donatı oranı limiti: TS500’de tanımlanan dengeli donatı oranının 0,85 katıdır.

Reinforcement ratio difference: It is the difference in tensile and compression reinforcement ratios at the element end.

Capacity chart

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Combination: The corresponding combination is shown.
i: The left end of the element in the horizontal element is the lower end of the element in the vertical element.
j: The right end of the element in the horizontal element is the upper end of the element in the vertical element.
N: The axial force of the element
V2, V3:  The shear forces of the element in the 2 and 3 directions.
T: The torsion moment of the element.
M2: It is the bending moment of the element in the 2 (minor) direction.
M3: It is the bending moment of the element in the 3 (major) direction.
Boundary ratio: Indicates the ratio of the effect the element gets at the i and j ends of the respective loading / combination to its capacity at that loading. If the value is greater than 1, the element exceeds the maximum capacity.
Ger.As .: It is the area of ​​reinforcement needed by the element in the relevant loading combination.

Available reinforcement area

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The available reinforcement area values ​​for end i, span and j end are shown.

Bending diagram in 2 axis

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Bending diagram in 3 axis

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Loading status

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The combination for the capacity diagrams to be examined can be selected from the list.

DGT

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It ensures that the capacity curve is obtained by complying with the concrete and reinforcement material model criteria defined in TS500.

ŞGDT

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It ensures that the capacity curve is obtained by complying with the ŞGDT criteria for the concrete and reinforcement material model defined in TBDY.

I tip

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The left end of the element in the horizontal element is the lower end of the element in the vertical element.

Openness

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Shows the arrangement of fibers and reinforcement in beam span.

J tip

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The right end of the element in the horizontal element is the upper end of the element in the vertical element.

Schematic drawing

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Moment - curvature diagram

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Idealize

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If marked, the Moment-Curvature plot is idealized. It is a moment curvature relationship obtained by drawing a horizontal line that intersects with an inclined line passing over the moment of yield and will equalize the areas between the moment curvature graph.

Stop when the fiber reaches its highest stress

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If checked, the graphic ends when the graphic fiber reaches its highest stress.

DGT

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It ensures that moment curvature is obtained by complying with the concrete and reinforcement material model criteria defined in TS500.

ŞGDT

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It ensures that moment curvature is obtained by complying with the ŞGDT criteria for the concrete and reinforcement material model defined in TBDY.

Point number

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It is used to determine how many points the moment curvature graph consists of.

Pain

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It shows the neutral axis angle from which the moment curvature relationship is obtained. It is indicated with a red arrow in the image above.

Axial force

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It shows under which axial force the moment curvature relationship is drawn.

I tip

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The left end of the element in the horizontal element is the lower end of the element in the vertical element.

J tip

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The right end of the element in the horizontal element is the upper end of the element in the vertical element.

Pressure limit

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The determined material model is the largest axial pressure force that the section can take in the moment-normal force interaction.

Shrink limit

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The determined material model is the largest axial tensile force that the section can take in the moment-normal force interaction.

Stress / strain lines

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It shows the stress and strain state in section in color format at each step of the moment curvature relationship.

Generate report

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Creates a detailed report of Moment Curvature.

Deflection and crack table

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The values ​​used in deflection and crack controls, deflection and crack results are given.

Beam: It is the name of the beam where deflection and crack control results are shown.
Control: It is the information whether deflection and crack control has been done.
Ln: The beam is the clean span.
Delta ig: It is the instantaneous deflection value calculated according to constant loads.
Delta iq: It is the instantaneous deflection value calculated according to live loads.
Lamda delta ig: Time dependent deflection value calculated according to constant loads.
Delta t: It is the total deflection value calculated using instantaneous and deflection values.
(Delta t = Delta ig + Delta iq + Lamda delta ig)
delta iq <l / 360:It is the control of the instantaneous deflection value calculated according to the live loads according to the span. If not, it means deflection condition is exceeded. The program warns.
Delta t < 1/240 : It is the control of the total deflection value according to the span. If not, it means deflection condition is exceeded. The program warns.
Omega: Crack value formed in the beam (TS500 formula 13.5)
Omega <omega max: It is the control of the crack value according to the allowed crack limit. If the condition is not met, the program warns.

Deflection curve due to constant load

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Deflection curve due to live load

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Torsion moment

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Td: The design torque value.
Tcr: It is the torsional crack strength value of the section.
S: Torsional strength moment value.

Area of ​​reinforcement

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Aov / s: It is the value of the stirrup cross section required for cutting at 1 meter section.
Aot / s: The value of the stirrup cross section required for torsion at 1 meter cross section.
Ao / s: It is the value of the cross sectional area of ​​the stirrup bar at 1 meter cross section.
Asl: It is the area of ​​longitudinal reinforcement required for torsion.

Stirrup

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D: It is the reinforcement diameter value.
s: is the range of reinforcement in the span.
sk: It is the reinforcement interval value in the densification region.

Control

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Torsion reinforcement

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Information on the torsion reinforcement in the upper, middle and lower parts of the beam is given.

3D image

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Columns

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If the option is selected, column reinforcements are shown on the screen.

Beams

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If the option is selected, beam reinforcements are shown on the screen.

Curtains

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If the option is selected, curtain reinforcement is shown on the screen.

Longitudinal reinforcements

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Longitudinal reinforcements of the elements with option marked are shown on the screen.

Transverse reinforcement

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The transverse reinforcements of the elements with options are displayed on the screen.

Color by diameter

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If the option is selected, bars with different diameters are shown in different colors. Which color represents which diameter is on the right of the screen. If the option is off, all of the rebars are shown in red.