Optimal design method of the load-level isolation system for industrial steel racking.

This paper focuses on an innovative system for mitigating seismic actions on industrial steel racking, called Load-Level Isolation System (LLIS). It consists of placing isolators directly between the pallet masses and the load level, thus exploiting the pallet masses (much greater than the structural mass) as tuned mass dampers. Specifically, the paper aims to derive a general design procedure for the LLIS, based on the amount of mass isolated, the position of the LLIS within the rack, and the main dynamic characteristics of the structural system. To this end, an analytical optimization method is proposed, based on the minimization of the displacement variance of a reduced structural model, representative of the rack dynamics with the LLIS. This method is applied parametrically to derive the optimal damping and frequency values of the LLIS in various design situations, and a sensitivity analysis is subsequently conducted to propose cost-effective LLIS design solutions. Prediction models of the LLIS parameters are therefore provided, as well as a simple step-by-step procedure for designing the control system. Finally, a case study is presented, with the dual objectives of showing the application of the design procedure and the effectiveness of the LLIS in mitigating seismic effects in a standard pallet rack. The results of the Time-History analysis demonstrate the validity of the proposed design method and the possibility of achieving large reductions in the seismic response of the rack using this control system, and up to 60% for both maximum displacements and axial forces of the uprights. • Investigation on the Load-Level Isolation System (LLIS) for mitigating seismic actions on industrial steel racking. • Definition of the equivalent reduced-order model of the LLIS-equipped racking. • Optimal and cost-effective LLIS solutions as a function of isolated mass, its position, and rack dynamic. • Provision of a step-by-step design procedure for the LLIS. • Evaluation of LLIS effectiveness through a case study pallet rack and bidirectional Time-History analyses. [ABSTRACT FROM AUTHOR]