Structural sectional properties for a 2L6X3.5X0.500LLBB standard steel section
Description | Symbol | Value |
---|---|---|
Shape Category / Designation | Type | 2L |
Section Name | Name | 2L6X3.5X0.500LLBB |
Cross Sectional Area | A | 9 in2 |
Section Width | b | 6 in |
Section Depth | d | 3.5 in |
Flange thickness | tf | 0.5 in |
Web thickness | tw | 0.5 in |
Radius of Gyration about X-X | rx | 1.92 in |
Radius of Gyrations about Y-Y | ry | 1.27 in |
Moment of Inertia about X-X | Ix | 33.2 in4 |
Moment of Intertia about Y-Y | Iy | 14.5 in4 |
Elastic Section Modulus about X-X | Sx | 8.46 in3 |
Elastic Section Modulus about Y-Y | Sy | 4.14 in3 |
Plastic Section Modulus about X-X | Zx | 15 in3 |
Plastic Section Modulus about Y-Y | Zy | 7.46 in3 |
Self Weight of section | Weight | 30.6 lb/ft |
Description | Symbol | Value |
---|---|---|
Shape Category / Designation | Type | 2L |
Section Name | Name | 2L6X3.5X0.500LLBB |
Cross Sectional Area | A | 5806 mm2 |
Section Width | b | 152 mm |
Section Depth | d | 89 mm |
Flange thickness | tf | 12.7 mm |
Web thickness | tw | 12.7 mm |
Radius of Gyration about X-X | rx | 49 mm |
Radius of Gyrations about Y-Y | ry | 32 mm |
Moment of Inertia about X-X | Ix | 14000000 mm4 |
Moment of Intertia about Y-Y | Iy | 6000000 mm4 |
Elastic Section Modulus about X-X | Sx | 139000 mm3 |
Elastic Section Modulus about Y-Y | Sy | 68000 mm3 |
Plastic Section Modulus about X-X | Zx | 246000 mm3 |
Plastic Section Modulus about Y-Y | Zy | 122000 mm3 |
St. Venant Torsional Constant | J | NaN mm4 |
Warping Torsion Constant | Cw | NaN mm6 |
Self Weight of section | Weight | 46 kg/m |
Note: Metric units have been converted from tabulated imperial values and rounded to a reasonable number of significant figures.
A 2L6X3.5X0.500LLBB steel section is a standard North American steel section in the 2L - Doubled Angles category. It weighs 30.6 lb/ft and has a cross sectional area of 9 in2. The height and width of the section are 3.5 in and 6 in respectively.
The section has a tensile yield capacity of:
The section has a flexural plastic moment capacity of:
The section has a flexural elastic moment capacity of: