Applied Mechanics, Vol. 6, Pages 28: Experimental Study on the Use of Polyurethane Elastomers to Enhance Structural Performance of A36 Steel Sheets Under Near-Field Detonation

Applied Mechanics doi: 10.3390/applmech6020028

Authors:
Anselmo S. Augusto
Girum Urgessa
José A. F. F. Rocco
Fausto B. Mendonça
Koshun Iha

In recent years, a series of studies have examined the effects of blast loads on structures and proposed new materials to enhance or retrofit the resistance of conventional materials, such as steel or concrete. Polymeric materials, including foams and elastomers, play a significant role in this field due to their low density and favorable mechanical properties under dynamic loads. This study investigates the use of polyurethane elastomer to improve the mechanical properties of 2 mm A36 steel sheets. The efficiency of this material in steel structures has not yet been studied in the scientific literature through blast tests. A total of 18 near-field blast tests were conducted at standoff distances of 300 mm and 500 mm. The explosive charges consisted of 334 g of bare Composition B in a spherical shape. The steel sheets were fixed to rigid supports and exposed to the blast either bare or covered with different layers of commercial Shore A 60 or 90 polyurethane elastomer, with thicknesses varying from 2 to 6 mm. The maximum displacement of the steel sheets was measured using a high-speed camera and the results were compared. The elastomer retrofitted sheets exhibited a reduction in maximum displacement ranging from 5% to 20% when compared to the sheet without the elastomer.

Source link

Anselmo S. Augusto www.mdpi.com