End plate moment-transmitting connection design is made automatically according to ideCAD Structural to the Design, Calculation, and Construction Principles of Steel Structures (ÇYTHYEDY) (GKT and YDKT) and AISC 360-16 (ASD and LRFD) regulations.
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Bolted End Plate Connections in ideCAD Structural Software
It consists of 3 different types.
The factors determining the behavior of the connections are beam cross-section reaching to yielding yield under bending, end plate reaching to yielding yield under bending, yielding of column panel zone, failure of bolts under tension, and rupture bolts under shear.
The controls listed above are applied automatically, and detailed explanations and references with parameters used in the computation are given in the report.
The YDKT method must be selected to report these connections used in the design of moment-resisting frame elements carrying earthquake loads together with TBDY 2018 and ÇYTHE 2018.
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There are Some conditions that must be met in order to be used in 3 types of moment-resisting frames with high or limited ductility levellevels. These conditions are given in TBDY 2018 Table 9B.1 according to the ductility level. ideCAD Structural Steel automatically checks and reports these conditions.
Plastic In the end plate connection, plastic hinges cause inelastic bending deformations in the connected beam and column panel zone in the end plate connection. Therefore, strong connection, strong column and weak beam design are considered a basis. For this reason, the length of the plastic hinge and its distance from the column face is specifically checked from the table below:
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Design Criteria for End Plate Connection
The strength of the end plate connection is determined by the assumption that the tensile force of the bolts on a part of the plate and compressive forces of the bolts on the other part of the plate is controlled by the bearing limit state.
If there is no axial load on the connection, the total tensile and compressive forces are equal and opposite in both parts which create force pair.
The row of bolts farthest from the compression part is considered as the region subject to the greatest tensile force, and the inverse triangular force distribution provides simplification on the calculation and a ductile connection is calculated on a parabolic distribution according to the plastic force distribution assumption.
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The equations used are as follows
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The Limit States to be Checked
Force | Connection Element | Reference |
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Tension | Bolt (Tension) | a |
Tension | Plate (Bending) | b |
Tension | Column Flange (Bending) | c |
Tension | Beam Web (Tension) | d |
Tension | Column Web (Tension) | is |
Tension | Flange - Plate Weld | f |
Tension | Web - Plate Weld | g |
Horizontal Shear | Column Web (Shear) | h |
Compression | Beam Flange (Compression) | j |
Compression | Beam Flange Weld | k |
Compression | Column Web | l |
Vertical Shear | Web - Plate Weld | m |
Vertical Shear | Bolt (Shear) | n |
Vertical Shear | Bolt Bearing | p |
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