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How does ideCAD design Bolted Flange Plate Connections according to AISC 360-16 & AISC 358-16?


  • Design limit states of bolted flange plate connections are calculated automatically according to AISC 360-16 and AISC 358-16.


Lh = distance between plastic hinge locations, in. (mm)
Lst = length of stiffener, as shown in Figure 6.5, in. (mm)
Mpr = probable maximum moment at the plastic hinge, kip-in. (N-mm), given by Equation 2.4-1
Sh = distance from the face of the column to the plastic hinge, in. (mm)
Vgravity = beam shear force resulting from 1.2D + f1L + 0.2S (where f1 is a load factor determined by the applicable building code for live loads, but not less than 0.5), kips (N)
Vu = shear force at the end of the beam, kips (N)
bbf = width of beam flange, in. (mm)
d = depth of connecting beam, in. (mm)
tp = thickness of end-plate, in. (mm)
S1 = distance from face of column to nearest row of bolts, in. (mm)


Bolted flange plate moment connections consist of plates welded with CJP groove welds to column flanges and bolted to beam flanges. The top and bottom plates must be identical to be suitable for design with reversible forces such as seismic forces.

image-20240209-130743.pngimage-20240209-130446.png

Connection Design Parameters

Resistance factor for ductile limit state (Yielding Limit State):

Resistance factor for Non-ductile limit state (Rupture Limit State): 

Distance from the face of the column to the plastic hinge, Sh, for bolted flange plate moment connections, is calculated by using the equation given below according to AISC 358-16 Eq. 7.6-5.

he probable maximum moment at the plastic hinge is given below, according to AISC 358-16.

image-20240208-083252.png

The moment at the face of the column, Mf., is calculated according to AISC 358-16 Eq. 6.8-1 given below.

The Vu used in the dimensioning of the joint is determined according to the equation in the above image by summing the shear force determined based on the yield state and the shear force calculated from the combination of 1.2G + 0.5Q + 0.2S on the plastic joint at the end of the beam.

PREQUALIFICATION LIMITS

Beam Limitations

  • Beam depth is limited to a maximum of 36 in. (920 mm) for rolled shapes. The depth of built-up sections does not exceed the depth permitted for rolled wide-flange shapes.

  • Beam flange thickness is limited to a maximum of 1 in. (25 mm).

  • The clear span-to-depth ratio of the beam is limited as follows:

    • For special moment frame systems, 9 or greater.

    • For intermediate moment frame systems, 7 or greater.

2. Column Limitations

(1) The beam is connected to the flange of the column.
(2) Rolled shape column depth is limited to W36 (W920) maximum when a concrete structural slab is provided. In the absence of a concrete structural slab, the rolled shape column depth is limited to W14 (W360) maximum.
Flanged cruciform columns don’t have a width or depth greater than the depth allowed for rolled shapes. Built-up box columns don’t have a width or depth exceeding 24 in. (600 mm). Boxed wide-flange columns don’t have a width or depth exceeding 24 in. (600 mm) if participating in orthogonal moment frames.



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