tee_section#
- sectionproperties.pre.library.steel_sections.tee_section(d: float, b: float, t_f: float, t_w: float, r: float, n_r: int, material: Material = Material(name='default', elastic_modulus=1, poissons_ratio=0, yield_strength=1, density=1, color='w')) Geometry [source]#
Constructs a tee section.
Constructs a tee section with the top left corner at
(0, d)
, with depthd
, widthb
, flange thicknesst_f
, web thicknesst_w
and root radiusr
, usingn_r
points to construct the root radius.- Parameters:
d (float) – Depth of the tee section
b (float) – Width of the tee section
t_f (float) – Flange thickness of the tee section
t_w (float) – Web thickness of the tee section
r (float) – Root radius of the tee section
n_r (int) – Number of points discretising the root radius
material (Material) – Material to associate with this geometry
- Returns:
Tee section geometry
- Return type:
Example
The following example creates a tee section with a depth of 200 mm, a width of 100 mm, a flange thickness of 12 mm, a web thickness of 6 mm and a root radius of 8 mm, using 8 points to discretise the root radius:
from sectionproperties.pre.library import tee_section tee_section(d=200, b=100, t_f=12, t_w=6, r=8, n_r=8).plot_geometry()
(
Source code
,png
,hires.png
,pdf
)