Calculation of design response spectrum (chart & table)

Hint: Select custom for Spectrum Type in order to manually specify the spectral parameters S, T_B, T_C, T_D and the spectral amplification factor

Shape of the response spectrum

Type 1 spectra correspond to typical high seismicity hazard. Low seismicity Type 2 spectra are recommended when the earthquakes that contribute most to the seismic hazard have a surface-wave magnitude, M_s, not greater than 5.5. For more details see EN1998-1 §3.2.2.2(2)P and the National Annex.

Direction of the seismic component

Reference peak ground acceleration on type A ground (rock)

α_gR

In accordance with EN1998-1 §3.2.1(2) and the seismic zones defined in the National Annex

Importance factor

γ_I

In accordance with EN1998-1 §3.2.1(3), §2.1.4 and the corresponding importance factors is given in the relevant Parts of EN1998. An importance factor of γ = 1.0 corresponds to typical structures of average importance.

Behavior factor in the examined direction

Represents the reduction of the full elastic seismic demand due to energy dissipation in the inelastic range. The behavior factor takes also into account the material viscous damping and it is provided in the relevant parts of EN1998.

Ground type

Ground types A, B, C, D, and described by the stratigraphic profiles and parameters given in EN1998-1 Table 3.1, partially reproduced below. Select 'custom' ground type to manually specify the spectral parameters S, T_B, T_C, T_D etc.

Ground types according to EN1998-1 Table 3.1
A	Rock or other rock-like geological formation, including at most 5 m of weaker material at the surface (v_s,30>800m/s)
B	Deposits of very dense sand, gravel, or very stiff clay, at least several tens of meters in thickness, characterised by a gradual increase of mechanical properties with depth (360m/s≤v_s,30<800m/s, N_SPT>50, c_u>250kPa)
C	Deep deposits of dense or medium dense sand, gravel or stiff clay with thickness from several tens to many hundreds of meters (180m/s≤v_s,30<360m/s, 15≤N_SPT<50, 70kPa≤c_u<250kPa)
D	Deposits of loose-to-medium cohesionless soil (with or without some soft cohesive layers), or of predominantly soft-to-firm cohesive soil (v_s,30<180m/s, N_SPT<15, c_u<70kPa)
E	A soil profile consisting of a surface alluvium layer with v_s values of type C or D and thickness varying between about 5 m and 20 m, underlain by stiffer material with v_s > 800 m/s

Ratio of vertical to horizontal peak ground acceleration

a_vg/a_g

In accordance with EN1998-1 §3.2.2.3(1)P and the National Annex.

Spectral amplification factor

It is the acceration ratio of the constant acceration branch to the peak ground acceleration. According to EN1998-1 §3.2.2 the spectral amplification factor F is equal to 2.5 for the elastic spectrum in the horizontal direction, 3.0 for the elastic spectrum in the vertical direction, and 2.5 for the design spectrum in both horizontal and vertical directions.

Soil factor

In accordance with EN1998-1 §3.2.2.2(3) and the National Annex. A value of S = 1 is applicable for rock by definition. For more flexible soils S > 1.

Characteristic period of elastic response spectrum (start of constant acceleration branch)

T_B

In accordance with EN1998-1 §3.2.2.2(2)P and the National Annex

Characteristic period of elastic response spectrum (start of constant velocity branch)

T_C

In accordance with EN1998-1 §3.2.2.2(2)P and the National Annex

Characteristic period of elastic response spectrum (start of constant displacement branch)

T_D

In accordance with EN1998-1 §3.2.2.2(2)P and the National Annex. It is noted that for seismic isolation systems with long periods the displacement demands are directly proportional to T_D. For bridges a larger value of T_D = 2.5 s is recommended in EN1998-2 §7.4.1(1)P

Lower bound value for the acceleration design spectrum

According to EN1998-1 §3.2.2.5(4) and the national annex

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Eurocode 8 Design acceleration response spectrum (for design of ductile structures in the inelastic range with the behavior factor q)