In this paper we present Hugoniot data for plastic foams obtained with laser-driven shocks. Relative equation-of-state data for foams were obtained using Al as a reference material. The diagnostics consisted in the detection of shock breakout from double layer Al/foam targets. The foams poly(4-methyl-1-pentene) with density 130 > rho > 60 mg/cm3 were produced at the Institute of Laser Engineering of Osaka University. The experiment was performed using the Prague PALS iodine laser working at 0.44 microm wavelength and irradiances up to a few 10(14) W/cm2. Pressures as high as 3.6 Mbar (previously unreached for such low-density materials) where generated in the foams. Samples with four different values of initial density were used, in order to explore a wider region of the phase diagram. Shock acceleration when the shock crosses the Al/foam interface was also measured.
Dezulian, R., Canova, F., Barbanotti, S., Orsenigo, F., Redaelli, R., Vinci, T., et al. (2006). Hugoniot data of plastic foams obtained from laser-driven shocks. PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS, 73(4), 047401-047402 [10.1103/PhysRevE.73.047401].
Hugoniot data of plastic foams obtained from laser-driven shocks
DEZULIAN, RICCARDO;CANOVA, FEDERICO;ORSENIGO, FRANCESCA;REDAELLI, RENATO;LUCCHINI, GIANNI;BATANI, DINO DIMITRI;
2006
Abstract
In this paper we present Hugoniot data for plastic foams obtained with laser-driven shocks. Relative equation-of-state data for foams were obtained using Al as a reference material. The diagnostics consisted in the detection of shock breakout from double layer Al/foam targets. The foams poly(4-methyl-1-pentene) with density 130 > rho > 60 mg/cm3 were produced at the Institute of Laser Engineering of Osaka University. The experiment was performed using the Prague PALS iodine laser working at 0.44 microm wavelength and irradiances up to a few 10(14) W/cm2. Pressures as high as 3.6 Mbar (previously unreached for such low-density materials) where generated in the foams. Samples with four different values of initial density were used, in order to explore a wider region of the phase diagram. Shock acceleration when the shock crosses the Al/foam interface was also measured.
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