256  Rheology

          Work-hardening  can occur  as a result of mechanical entanglement
        or jamming of the structural elements on shearing, an example of this
        being the 'necking' and corresponding toughening of metal rods when
        subjected  to  a  tensile  stress.  A  technically  important  rheological
        property, which is related to strain-hardening (and to flow elasticity),
        is spinability  -  i.e. the facility with which a material can be drawn into
        threads.


        Viscoelasticity 12

        When a typical elastic  solid  is stressed, it immediately deforms by an
        amount  proportional  to  the  applied  stress  and  maintains a  constant
        deformation  as  long  as the  stress  remains  constant  -  i.e.  it  obeys
        Hooke's  law.  On  removal  of  the  stress,  the  elastic  energy  stored in
        the  solid  is released  and  the  solid  immediately recovers  its original
        shape.  Newtonian  liquids,  on  the  other  hand,  deform  at  a  rate
        proportional  to  the  applied  stress  and  show  no  recovery  when  the
        stress  is removed,  the energy involved having been  dissipated  as heat
        in  overcoming  the  internal  frictional resistance.
          When  viscoelastic  materials  are  stressed,  some  of  the  energy
        involved  is  stored  elastically,  various  parts  of  the  system  being
        deformed into new non-equilibrium positions  relative to one another.
        The  remainder  is  dissipated  as  heat,  various  parts  of  the  system
        flowing into new equilibrium positions  relative to one another.  If the
        relative  motion  of  the  segments  into  non-equilibrium positions  is
        hampered,  the  elastic  deformation  and  recovery  of  the  material is
        time-dependent  (retarded  elasticity).

        Experimental methods

        Numerous  instruments  (plastometers,  penetrometers,  extensiometers,
        etc.)  and procedures  have been  devised for measuring the  rheological
        behaviour  of  various  viscoelastic  materials.  However,  the  results
        obtained  from  most  of  these  instruments are  of  little fundamental
        significance,  because  the  applied  stress  is not  uniformly  distributed
        throughout  the  sample,  and  the  way in  which  the  material  behaves
        towards a particular apparatus is measured rather than a fundamental
        property  of  the  material  itself.  Nevertheless,  such  empirical instru-
        ments  are  indispensable  for  control  testing  purposes  in industry,