The composite honeycomb beam design results are shown in the Composite Honeycomb Beams dialog.
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Location of Composite Castellated Beam Dialogue
After the analysis is done, you can access it by clicking the Composite Castellated Beam Results command under the Steel Design heading in the ribbon menu Analysis and Design tab .
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Composite Castellated Beams
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Specifications |
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ID Image AddedCastellated beam is the name of the beam in the plan. |
Section Image AddedIt is the section used in castellated beam. |
Material Image AddedCastellated beam is the material class of the beam. |
Construction stage design Image AddedThe construction stage shows the design control. |
Composite design Image AddedDemonstrates composite design control. |
Deflection Image AddedShows castellated control. |
Construction stage design Image AddedThe construction phase opens the design details window. |
Composite design Image AddedOpens the composite design details window. |
Previous Image AddedThe cursor moves to the previous line. |
Next Image AddedThe cursor goes to the next line. |
OK Image AddedIt saves the changes made and closes the dialog. |
Cancel Image AddedCloses the dialog without saving the changes made. |
Summary Information The summary information about the line where the cursor is located is given in the name of the dialog in story, pose format. Image AddedFor example, BASE STORY, SB001 |
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 selects the lines in between one by one. |
Construction Stage Design
Design Checks Tab
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Specifications |
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Bending Image AddedKomb .: It is the combination that creates the most unfavorable section forces. Location: It is the position of the section forces taken into account in the design on the beam. Mu3: It is the moment value acting on the element in 3 direction. Mc3: It is the moment capacity of the element in 3 directions. Ratio: It is the moment-to-capacity ratio. |
Cut (Gross) Image AddedKomb .: It is the combination that creates the most unfavorable section forces. Location: It is the position of the section forces taken into account in the design on the beam. Vu: It is the shear force acting on the element. Vc: It is the shear force capacity of the element. Ratio : It is the ratio of the shear force of the element to the capacity. |
Cutting (Net) Image AddedKomb .: It is the combination that creates the most unfavorable section forces. Location: It is the position of the section forces taken into account in the design on the beam. Vu: It is the shear force acting on the element. Vc: It is the shear force capacity of the element. Ratio: It is the ratio of the shear force of the element to the capacity. |
Horizontal cutting Image AddedKomb .: It is the combination that creates the most unfavorable section forces. Location: It is the position of the section forces taken into account in the design on the beam. Vu: It is the shear force acting on the element. Vc: It is the shear force capacity of the element. Ratio: It is the ratio of the shear force of the element to the capacity. |
Body sprain Image AddedKomb .: It is the combination that creates the most unfavorable section forces. Location: It is the position of the section forces taken into account in the design on the beam. Mu: It is the moment value acting on the element. Mc: Moment capacity of the element. Ratio: It is the ratio of the moment acting on the element to the capacity. |
Vierendeel bending Image AddedKomb .: It is the combination that creates the most unfavorable section forces. Location: It is the position of the section forces taken into account in the design on the beam. Pu: It is the axial load value. Mu3: It is the moment value acting on the element in 3 direction. Pc: The axial load capacity of the honeycomb beam. Mc3: It is the moment capacity of the element in 3 directions. Interaction equation: It is the interaction equation used in ratio calculation. Ratio: It is the moment-capacity ratio found by the interaction equation. |
Force and Moments Tab
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Specifications |
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i Image AddedThe body and body cavities in the honeycomb beam are listed. |
x Image AddedIt shows the location where the relevant forces and moments are located. |
Seen Image AddedIt is the shear force acting on the element. |
Mu Image AddedIt is the moment value acting on the element. |
Pv Image AddedIt is the axial force value. |
Mv Image AddedIt is the moment value acting on the element. |
Vh Image AddedShear force acting on the element. |
Mh Image AddedIt is the moment value acting on the element. |
Section Details Tab
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Specifications |
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Section properties Image AddedIx, net: shows the net moment of inertia in the x direction. |
T section properties Image AddedA: Shows the cross section area. J: Shows the Polar Moment of Inertia. Ix: Shows the moment of inertia in the x direction. Iy: shows the moment of inertia in the y direction. ix: shows the radius of inertia in the x direction. iy: shows the radius of inertia in the y direction. Wex indicates the moment of elastic strength in the x direction in the upper: upper cap region. Wey indicates the moment of elastic strength in the y-direction in the upper: upper cap region. Wex: lower: shows the moment of elastic strength in the x direction in the subheading region. Wey indicates the moment of elastic strength in the y-direction in the lower: subhead region. Wpx:Shows the plastic strength moment in the x direction. Wpy: shows the plastic strength moment in the y direction. |
Composite Design
Design Details Tab
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Specifications |
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Sehim Image AddedKomb .: It is the combination that creates the most unfavorable section forces. Deflection: It is the deflection formed in the honeycomb beam. Span: Honeycomb is the length of the beam. Upper value: The upper deflection value of the beam according to the regulation. Ratio: It is the ratio of deflection made by the beam to the limit value. |
Cut (Gross) Image AddedKomb .: It is the combination that creates the most unfavorable section forces. Location: It is the position of the section forces taken into account in the design on the beam. Vu: It is the shear force acting on the element. Vc: It is the shear force capacity of the element. Ratio : It is the ratio of the shear force of the element to the capacity. |
Cutting (Net) Image Added Komb .: It is the combination that creates the most unfavorable section forces. Location: It is the position of the section forces taken into account in the design on the beam. Vu: It is the shear force acting on the element. Vc: It is the shear force capacity of the element. Ratio: It is the ratio of the shear force of the element to the capacity. |
Horizontal cutting Image AddedKomb .: It is the combination that creates the most unfavorable section forces. Location: It is the position of the section forces taken into account in the design on the beam. Vu: It is the shear force acting on the element. Vc: It is the shear force capacity of the element. Ratio: It is the ratio of the shear force of the element to the capacity. |
Body sprain Image AddedKomb .: It is the combination that creates the most unfavorable section forces. Location: It is the position of the section forces taken into account in the design on the beam. Mu: It is the moment value acting on the element. Mc: Moment capacity of the element. Ratio: It is the ratio of the moment acting on the element to the capacity. |
Vierendeel bending Image AddedKomb .: It is the combination that creates the most unfavorable section forces. Location: It is the position of the section forces taken into account in the design on the beam. Pu: It is the axial load value. Mu3: It is the moment value acting on the element in 3 direction. Pc: The axial load capacity of the honeycomb beam. Mc3: It is the moment capacity of the element in 3 directions. Interaction equation: It is the interaction equation used in ratio calculation. Ratio: It is the moment-capacity ratio found by the interaction equation. |
Force and Moments Tab
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Specifications |
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i Image AddedThe body and body cavities in the honeycomb beam are listed. |
x Image AddedIt shows the location where the relevant forces and moments are located. |
Seen Image AddedIt is the shear force acting on the element. |
Mu Image AddedIt is the moment value acting on the element. |
Pv Image AddedIt is the axial force value. |
Mv Image AddedIt is the moment value acting on the element. |
Vh Image AddedShear force acting on the element. |
Mh Image AddedIt is the moment value acting on the element. |
Section Details Tab
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Specifications |
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Section properties Image AddedIx, net: shows the net moment of inertia in the x direction. |
T section properties Image AddedA: Shows the cross section area. J: Shows the Polar Moment of Inertia. Ix: Shows the moment of inertia in the x direction. Iy: shows the moment of inertia in the y direction. ix: shows the radius of inertia in the x direction. iy: shows the radius of inertia in the y direction. Wex indicates the moment of elastic strength in the x direction in the upper: upper cap region. Wey indicates the moment of elastic strength in the y-direction in the upper: upper cap region. Wex: lower: shows the moment of elastic strength in the x direction in the subheading region. Wey indicates the moment of elastic strength in the y-direction in the lower: subhead region. Wpx:Shows the plastic strength moment in the x direction. Wpy: shows the plastic strength moment in the y direction. |