Vertical Elastic Design Spectrum per ASCE 7-16 with ideCAD

Owned by
Hakan Şahin
Last updated: Jul 11, 2023 by
oğuzcan hadim
1 min read

How does ideCAD define vertical elastic design spectrum, according to ASCE 7-16?

  • Using the coefficients obtained from the map, the vertical elastic spectrum curve is automatically calculated.

  • The design vertical response spectral acceleration, Sav, is taken as two-thirds of the value of SaMv.

SYMBOLS

SMS = The MCER spectral response acceleration parameter at short periods
SaMv = The vertical response spectral acceleration
Sav = The design vertical response spectral acceleration
Tv = The vertical period of vibration. [s]
Cv = is defined in terms of SS in Table 11.9-1

With the spectral response acceleration parameters obtained from USGS depending on the coordinates, the vertical response spectrum SaMv is calculated according to the formula below.

For vertical periods less than or equal to 0.025 s, SaMv is determined with Eq. 11.9-1.

For vertical periods T>0.025 s and T≤0.05 s, SaMv is determined with Eq. 11.9-2.

For vertical periods T>0.05 s and T≤0.15 s, SaMv is determined with Eq. 11.9-3.

For vertical periods T>0.15 s and T≤2.0 s, SaMv is determined Eq. 11.9-4.

The vertical coefficient, Cv, is determined according to Table 11.9-1 using straight-line interpolation for intermediate values.

 

Values of Vertical Coefficient Cv

Ss

Site Class A, B

Site Class C

Site Class D, E, F

Ss

Site Class A, B

Site Class C

Site Class D, E, F

Ss ≥ 2.0

0.9

1.3

1.5

Ss = 1.0

0.9

1.1

1.3

Ss = 0.6

0.9

1.0

1.1

Ss = 0.3

0.8

0.8

0.9

Ss ≤ 0.2

0.7

0.7

0.7

The design vertical response spectral acceleration, Sav, is taken as two-thirds of the value of SaMv.

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