The use of the SPT-based seismic soil liquefaction triggering evaluation methodology in engineering hazard assessments

Probabilistic and deterministic seismic soil liquefaction triggering methodologies are proposed in Cetin et al. [1]. This manuscript: i) presents the protocols, which need to be followed for the correct use of this methodology for forward engineering (design) assessments, ii) guides the engineers through the procedure, and iii) discusses the “tricks” alongside the protocol. An illustrative soil profile shaken by a scenario earthquake is presented, through which consistent estimations of representative SPT blow-counts along with fines content are discussed. Additionally, the estimation of CSR input parameters are illustrated. Last but not least the uncertainty estimations of these input parameters are presented along with the probability and factory of safety for the assessment of liquefaction triggering. • A simplified methodology and its use to assess liquefaction triggering hazard of a soil site under an earthquake scenario event. • The consistent and unbiased mean estimates of input parameters of SPT blow-counts([Formula: see text]), fines content ([Formula: see text]), vertical effective ([Formula: see text]) and total ([Formula: see text]) stresses, maximum ground acceleration ([Formula: see text]), stress reduction (or non-linear shear mass participation) factor ([Formula: see text]) and moment magnitude ([Formula: see text]) along with their uncertainties are discussed. • Outlined methodology enables engineers to estimate the probability of- and factor of safety against- seismic soil liquefaction triggering for design problems.