Polyurethane foams used in floatation applications must have a high "hydrau
lic resistance", which is the resistance to penetration of water into the f
oam cells at elevated hydraulic pressures. Experiments are carried out to s
tudy the effect of different surfactants on the structure and hydraulic res
istance of rigid polyurethane foams with densities in the range 100-200 kg/
m(3). The hydraulic resistance is evaluated in terms of the weight of water
absorbed per unit weight of the foam at a fixed hydraulic pressure, and th
e cell and strut sizes of the foams are measured by microscopy and image an
alysis. The hydraulic resistance of the foams increases with the increase i
n density of the foams. The compression strength of the foam is significant
ly higher than the corresponding hydraulic pressure the foams can withstand
, indicating that the hydraulic resistance is determined by the existence a
nd strength of cell windows. The water absorbed by the foams increases with
the hydraulic pressure. Among the different surfactants used, the foams ma
de with Tegostab B8404, Atsurf 3800 or Cresmer 3845 surfactants have a low
loss in buoyancy (less than 20%) at 3 bar hydraulic pressure. These foams a
lso have smaller cell windows compared to foams with lower hydraulic resist
ance.