The mechanism of stabilization of actinomycete foams and the prevention of foaming under laboratory conditions

mechanisms controlling the volume of foam for cd by air bkgbling continously through a liquid have been studicdTExamples are given in which onc-coalescence of bubbles within the foam-. or another-bursting of bubblos at the top of the foam-predominates. T h e cffcct of alcohoh:in enhancing foaming, a

the surface tensions of the two bubbles are equal. Thus the Foam decay may arise from liquid drainage, whether gravitalarger bubble will grow at the expense of the smaller one, tional, due to interbubble gas diffusion, or from rupture of the and the smaller bubble will eventually disappear. The cons

## films (CBF), and Newton black foam films (NBF). Foaming prop- These different types possess significantly different kinetic erties were investigated at 20 and 28ЊC where DMPG is in the (e.g., drainage) and thermodynamic (e.g., stability) propergel and liquid-crystalline states. Higher conductiv

Acoustic absorbing foam materials are produced from dry natural rubber (NR) with the addition of sodium bicarbonate as a blowing agent. The acoustical efficiencies of NR foams were studied, and the results show a significant influence of the viscoelastic and damping properties of the base matrix. Bo