Column Shear Design Forces

ICONS

A _w = Effective body area of ​​column cross-section
f _ck = Characteristic cylinder compressive strength of concrete
f _cd = Design compressive strength of concrete
f _yd = Design yield strength of longitudinal reinforcement
L _n = Free height of column between beams, free span of beam between column or curtain faces
M _a = Moment at the lower end of the column's free height, based on the column shear calculation
M _ü =At the upper end of the column's free height, the moment
M _{hü (i)} = The moment at the upper end of the column is the moment at the work floor.
M _{ha (i)} = It is the moment at the lower end of the column at the work floor.
M _{ha (i + 1)} = It is the moment at the lower end of the column in the upper floor of the studied floor.
M _{hü (i-1)} = It is the moment at the upper end of the column in the lower floor of the studied floor.
M _ra = The moment of bearing strength calculated according to f _cd and f _yd at the lower end of the free height of the column or curtain
M _rü =The moment of bearing strength calculated according to f _cd and f _yd at the upper end of the free height of the column or curtain
M _ri = The moment of positive or negative bearing strength calculated according to f _cd and f _yd on the column or wall face at the left end i of the beam
M _rj = Negative or positive moment of bearing strength calculated according to f _cd and f _yd on the column or wall face at the right end j of the beam
V _c = Contribution of the concrete to the shear strength
V _e = Shear force based on column transverse reinforcement calculation

Shear force to be based on transverse reinforcement calculation

7.3.7.1 - Shear force V _{e to} be taken as basis for transverse reinforcement calculation in columns , Eq. It is calculated by (7.5) .

V _e = ( M _a + M _ü ) / L _n                                                        (7.5)

It is important for the calculation of M _a and M _ü whether the sum of the bearing strength moments of the columns at the node point is 20% more than the moments of the beams in both directions of the earthquake . For this reason, it is first checked whether the equation Equation (7.3) is fulfilled.

( M _ra + M _rü ) ≥ 1.2 ( M _ri + M _rj )                                                       (7.3)

In case Eq. (7.3) is not provided:

The sum of the torque capacity of the joint at the ends of beams Σ M _p torque Eq. (7.6) is calculated by.

∑ M _p = M _pi + M _pj                                                        (7.6)

M _pa ≈1.4 M _ra and M _pi ≈1.4 M _r can be taken. In the calculation of M _pa and M _pü moments, N _d axial forces which make these moments maximum in accordance with the direction of the earthquake are taken into consideration.

M _u 's account:

Open

Calculation of M _a :

Open

In case Equation (7.3) is met:

The moments calculated at the ends of the columns joining the node point are accepted as the moment capacities of the columns . (7.5) 't M _a and / or M _ü used instead.

M _pa ≈1.4 M _ra and M _pi ≈1.4 M _r can be taken.

M _u 's account:

Calculation of M _a :

Moment M _a at the lower end of columns connected to the foundation is also used as moment capacities.

V _e 's account:

After determining M _a and M _u , Ln is calculated by considering column clear height.

V _e = ( M _a + M _ü ) / l _n                                                        (7.5)

The shear force calculated by Equation (7.5) , V _e , the vertical loads multiplied by the load factors and the shear force calculated under the combined effect of earthquake loads shall not be taken less than V _d .

And> = Vd.

And it must satisfy the conditions given by Equation (7.7) . If it cannot be achieved, the earthquake calculation should be repeated by increasing the column section dimensions as necessary.         

Vr is the shear strength of the column section _. It is calculated with the following steps according to TS500 .

As stated in TBDY 7.3.7.6 , in the calculation of transverse reinforcement in the column confinement zones, the contribution of concrete to the shear strength is V if the shear force consisting only of earthquake loads is greater than half of the total shear force in earthquake condition and at the same time the condition N _d <0.05A _c f _{ck is met. c} = 0 is taken.