M. Yasuhara et al., EXPERIMENT ON EFFECTS OF POROSITY IN THE INTERACTION OF SHOCK-WAVE AND FOAM, JSME international journal. Series B, fluids and thermal engineering, 39(2), 1996, pp. 287-293
Head-on collision of a planar shock wave with open-cell materials was
studied experimentally. Three kinds of polyurethane foam are treated:
foam 350x70x70, which is of low porosity (phi approximately equal to 0
.76) and high density (rho(c)=290 kg/m(3)); foam 50x50x50, which is of
high porosity (phi approximately equal to 0.98) and low density (rho(
c)=26 kg/m(3)); and foam 13x13x13, which has the same density and poro
sity as foam 50x50x50, but has a different internal structure of foam
material. Stress-strain curves of foams show high nonlinearity and hys
teresis. The maximum stress value behind the foam just in front of the
solid end wall, is larger than the reflected shock pressure at the no
rmal solid wall. When a shock wave hits a foam surface, part of the sh
ocked gas penetrates into the foam and interacts with the foam materia
l. Measured stress histories at the foam base of the shock tube show s
tress which is significantly higher than that due to the pressure behi
nd the reflected shock wave at the solid wall. In the high-density foa
m 350x70x70, the peak stress is the highest, the mobility of gas in th
e foam is very low, and its dynamics can be approximated by a single-p
hase problem. In the foam 50x50x50 and low-density foam 13x13x13, peak
stresses are low and the peak value depends on the internal structure
of the material. In these cases, the mobility of gas in the foam is h
igh, and the dynamics must be treated as a two-phase problem.