Cross-section table (top left) |
Setting | Description |
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Group |
Group name of the cross-section |
Name |
Name of the individual cross-section (variant of grouped cross-sections) |
Catalogue Name |
Name of the respective catalog cross-section in the case the cross-section has been taken over from the predefined cross-section catalog. |
Parts |
Number of individual parts of the cross-section |
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Graphic presentation (top right) |
The graphical view shows the cross section with all its parts. The part currently selected in the lower left table is drawn in signal color (red). Setting | Description |
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GraphSet |
Function for modification of the presentation (selection of presented properties of the whole cross-section. |
PartSet |
Function for modification of the presentation (selection of presented properties of the currently selected cross-section part. |
ShStr |
Function for presenting shear stress vectors due to unit internal forces (optionally for Qy, Qz or Mx = 1.0) for the currently selected cross-section part. |
ShStr |
Display of the maximum shear stress value (in the presented Gauss points) |
MarkPart |
Option for switch on or off the marking of the currently selected part. |
StrFact |
Factor for the presentation of the shear stress vectors. |
Zoom |
Option for maximizing the presentation of the current cross-section part. |
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Table of cross-section parts (bottom left) |
Setting | Description |
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Part |
Number of the cross-section part |
Type |
Type of the cross-section part
- Static: The part is effective for the stiffness calculation
- Weight: The part is only considered for calculating the self-weight of the members.
- Slave: The cross-section part is not a physical part but a fictitious part describing the position of a so-called slave node with separate degrees of freedom. These DOF's are used in the case of a Finite Element analysis with using shell or volume elements for giving allowance to deformation of the cross-section.
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Cls |
Class of the cross-section part. This class term refers to the cross-section categories of table 6.2 of Eurocode EN 1993-1-1. It is used in steel design checks for selecting the relevant buckling curve and for calculating the cross-section class with respect to local buckling hazard (cross-section classes 1 to 4 in Eurocode or classes "Compact", "Non-compact" and "Slender" in AASHTO code).
- Solid: General, more or less compact section, which does not belong to a special class as defined below (also C profiles (channels) and T profiles).
- I-R (I-rolled): Rolled I or H profile.
- I-W (I-welded): Welded I or H profile.
- L (I-rolled): Rolled angle profile (equal or unequal legs)
- BRh (Box rolled hot): Hot rolled hollow profile (rectangular box or pipe)
- BRc (Box rolled cold): Cold rolled hollow profile (rectangular box or pipe)
- BW (Box welded general): General welded hollow box profile
- BWs (Box welded special): Welded hollow profile with thick walls and welds
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R-Mx, R-Qy, R-Qz |
Reduction factors for the calculation of the torsional stiffness and the shear stiffness in y and z direction. |
y, z |
Position of the origin of the coordinate system of the cross-section part in the coordinate system of the total cross-section. |
Parts |
For composite parts: Numbers of individual parts forming the composite part. |
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Table of cross-section values (bottom left) |
The presented table of cross-section values contains different parameter sets dependent on which of the 4 radio buttons above the table has been selected. Setting | Description |
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Bend. |
Display of standard cross-section values related to the local coordinate system of the cross-section translated into the center of gravity. The torsional moment of inertia is calculated around the shear center but used as if releated to the center of gravity.
- Ax: Cross-section area
- Ay, Az: Shear area for shear in y and z directions
- Ix: Torsion moment of inertia (calculated around the shear center)
- Iy, Iz: Bending moments of inertia around y and z directions respectively
- Iyz: Biaxial moment of inertia (not used, just for information)
- Wy,pl; Wz.pl: Plastic section modulus around y and z directions respectively
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Shear |
Display of the parameters governing the shear behavior
- sx: Factor X (Ax-schub / Ax) - reduction of cross-section area due to shear lag
- eslz: Eccentricity ez (center of gravity of reduced cross-section)
- sy: Faktor Y for reduction of cross-section area due to shear lag
- Iy*sy: Moment of inertia Iy considering reduction of cross-section area due to shear lag
- esly: Eccentricity ey (center of gravity of reduced cross-section)
- sz: Factor Z for reduction of cross-section area due to shear lag
- lz*sz: Moment of inertia Iz considering reduction of cross-section area due to shear lag
- lw: Warping resistance (not used)
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Ecc. |
Display of the geometric position of center of gravity and shear center
- ey, ez: Distance of the center of gravity from the coordinate origin
- Beta: Angle of principal axes of inertia
- ey-s, ez-s: Distance of the shear center from the coordinate origin
- ey-pl, ez-pl: Distance of the center of plastic bending from the coordinate origin
- Beta-pl: Angle of principal axes of plastic bending
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Geom. |
Display of additional interesting geometric parameters
- y1, a2: Distance of the center of gravity from bottom and top respectively
- y1, a2: Distance of the center of gravity from the left and right edge respectively
- U: Perimeter of the cross-section (outside)
- UIN: Perimeter of any voids in the cross-section (inside)
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Variant |
Cross-section variant if the same cross-section is used in different way |
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