Rheology  257
        where  an  arbitrary  number  which  bears  some  relation  to  the
                                                                 118
        mechanical  property under consideration is usually quite  sufficient .
          To  measure  elastic and  viscous properties  which  are  characteristic
        of the  material under consideration  and independent of the nature of
        the  apparatus  employed,  the  applied  stress  and  the  resulting
        deformation  must  be  uniform  throughout  the  sample.  Concentric
        cylinder  and  cone  and  plate  methods  approximate  these  requirements.
        For  materials  which  are  self-supporting,  measurements  on,  for
        example, the  shearing of rectangular samples  are  ideal,
          Creep  measurements  involve the  application  of  a  constant  stress
        (usually a shearing stress)  to the sample  and the measurement  of the
        resulting sample  deformation  as a function  of time. Figure 9.6 shows
        a  typical creep  and  recovery  curve.  In  stress-relaxation  measurements,
        the  sample  is subjected to an instantaneous predetermined  deforma-
        tion  and  the  decay  of  the  stress  within  the  sample  as the  structural
        segments flow into more  relaxed  positions  is measured  as a  function
        of time.




                Creep  under           Recovery  after
                constant  stress       removal  of  stress













                             Time

        Figure 9.6  Creep  and  recovery curve for a typical viscoelastic material


          The  response  of  a  material  to  an  applied  stress  after  very  short
        times can be measured  dynamically by applying a sinusoidally varying
        stress  to  the  sample.  A  phase  difference,  which  depends  on  the
        viscoelastic nature of the material, is set up between stress and strain.