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Symbols

D = Excess of strength coefficient
R = Coefficient of behavior of the carrier system
θII,i (X) = (X) second order indicator value defined for each i'th floor in the earthquake direction
θII,max (X) = (X) defined in the earthquake direction maximum second order indicator value
Vi(X) = (X) reduced storey shear force at ith floor in earthquake direction [kN]
hi = height of ith floor [m]
i,avg (X) = (X) average reduced relative story drift [m]
wk = total weight acting on the kth story [kN]
βII (X) = Second order amplification coefficient
βtE (X) = Equivalent base shear force amplification coefficient


  • For each direction, the second order indicator value θII,i is calculated according to TBDY 4.9.2 for all floors . If maximum θ II,max satisfies the condition given below; Second-order effects are not taken into account in determining the internal forces based on the design.

  • Ch is a coefficient calculated depending on the non-linear hysteretic behavior of the carrier system and is taken as 1 for steel structures as per TBDY 2018 4.9.2.2.

  • If the condition given in Equation 4.36 is not satisfied , the internal forces obtained from the horizontal earthquake effects are increased with the β II coefficient determined by the equation below .

  • This value calculated for all floors is used only to increase the internal forces of the upper section elements as per TBDY 4.9.2.4.

  • For manual calculation, V i and w k values ​​are obtained from the Floor Parameters section in the upper toolbar Analysis and Design tab of the program.

  • The above table from floor X direction forces, Vi , for FX; FY columns are used for the Y direction storey forces. Since the values ​​in the FX column are only the force acting on the relevant floor, they are added down and the total shear force diagram is created for the building. The following table V i values indicated in the column were obtained in this way.

  • wk is for the total weight affecting the floor, and the values ​​in the G and Q columns from the table above are combined to be G+0.3Q. Here, 0.3 is the live load participation coefficient and 0.3 was chosen for this building.

  • Average storey displacement values ​​are used directly as values ​​in the program report. Equation 4.36 is used for limit value calculation. The values ​​of the building used in the calculation are as follows:

  • βII =1 for the building . There is no increase. If it is greater than 1, it can go to increase the stiffness.

  • The excel table for the manual part of the account can be obtained here.

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