Emulsions and foams  271

         liquid drainage, or directly  from a liquid of relatively low viscosity)*.
        The nature  of thin liquid films (as found in these concentrated foams)
         has  been  the  subject  of a  great  deal  of fundamental  research.

         Foam stability

         Only  transitory  foams  can  be  formed  with pure  liquids and,  as with
        emulsions,  a third  (surface-active)  component -  a foaming  agent - is
        necessary  to  achieve  any  reasonable  degree  of  stability.  Good
        emulsifying  agents  are,  in general,  also good  foaming agents,  since
        the  factors  which  influence  emulsion  stability  (against  droplet
        coalescence)  and  foam  stability (against  bubble  collapse)  are  some-
        what  similar.
          The stability  of a foam  depends  upon  two principal  factors  -  the
        tendency  for  the  liquid films to drain  and  become thinner,  and their
        tendency to rupture  as a result  of random  disturbances.  Other  factors
        which  may  significantly influence foam  stability  include  evaporation
        and  gas  diffusion  through  the  liquid  films.  Owing  to  their  high
        interfacial  area  (and  surface  free  energy),  all foams  are  unstable  in
        the  thermodynamic sense.  Some distinction  can  be made,  however,
        between  unstable and metastable foam structures.  Unstable foams  are
        typified  by those  formed  from  aqueous solutions  of short-chain  fatty
        acids or  alcohols. The  presence of these mildly surface-active  agents
        retards  drainage  and film rupture  to  some  extent,  but  does not  stop
        these  processes  from  continuously  taking  place  to  the  point  of
        complete  foam  collapse.  Metastable  foams  are  typified  by  those
        formed  from  solutions  of  soaps,  synthetic  detergents,  proteins,
        saponins, etc.  The  balance of forces  is such that the drainage  of liquid
        stops when  a certain film thickness  is reached and,  in the  absence of
        disturbing  influences  (such  as  vibration,  draughts,  evaporation,
        diffusion  of gas from  small bubbles  to  large  bubbles,  heat,  temperature
        gradients,  dust  and  other  impurities),  these  foams  would  persist
        almost indefinitely.





          *SimilarIy,  some  solid  foams  (e.g.  foam  rubber)  consist  of  spherical gas  bubbles
        trapped  within a solid network, whereas others  (e.g.  expanded polystyrene) consist of
        as little as 1 per cent solid volume and are composed  of polyhedral gas cells separated
        by very  thin  solid walls.