This research paper is part of the SAS (Security of Airport Structures) Project funded by the European Programme for Critical Infrastructure Protection, whose objective was to develop and deploy a fiber reinforced polymer (FRP) fencing system intended to protect airport infrastructures against terrorist acts. In the paper, the efficacy of the proposed glass FRP discontinuous (porous) barrier under blast loads is presented by showing the results of the blast test campaign conducted on full-size specimens with a focus on the reduction of the blast shock wave induced by the barrier. A simplified model predicting the reduction of the shock wave beyond the barrier is proposed and validated via the experimental data obtained in the project. © 2015 D. Asprone et al.
Behavior of Full-Scale Porous GFRP Barrier under Blast Loads / Asprone, Domenico; Prota, Andrea; Manfredi, Gaetano; Nanni, Antonio. - In: INTERNATIONAL JOURNAL OF POLYMER SCIENCE. - ISSN 1687-9422. - 2015:(2015). [10.1155/2015/349310]
Behavior of Full-Scale Porous GFRP Barrier under Blast Loads
Asprone, Domenico;PROTA, ANDREA;MANFREDI, GAETANO;NANNI, ANTONIO
2015
Abstract
This research paper is part of the SAS (Security of Airport Structures) Project funded by the European Programme for Critical Infrastructure Protection, whose objective was to develop and deploy a fiber reinforced polymer (FRP) fencing system intended to protect airport infrastructures against terrorist acts. In the paper, the efficacy of the proposed glass FRP discontinuous (porous) barrier under blast loads is presented by showing the results of the blast test campaign conducted on full-size specimens with a focus on the reduction of the blast shock wave induced by the barrier. A simplified model predicting the reduction of the shock wave beyond the barrier is proposed and validated via the experimental data obtained in the project. © 2015 D. Asprone et al.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
