PIPES CONVEYING FLUID: LINEAR DYNAMICS I                95

                It  should  be  pointed  out  that  the  term  2B1/2ub21 played  an  important  role  in  all  of
              the foregoing, not accidentally but because it is associated with the Coriolis term in  the
              equation  of  motion,  which  in  turn  is  what  makes  the  system  gyroscopic  conservative,
              rather than just conservative. It is of interest that calculations with /3  = 0 show that, when
              the system is purely conservative, the only form of instability is divergence; coupled-mode
              flutter does not arise.
                Another  effect of  the  Coriolis  forces - despite  not  doing  any  net  work over  a cycle
              of oscillation - is that they render classical normal modes impossible.'  Thus, the modal
              displacement patterns contain both stationary and travelling-wave components, as seen in
              Figure 3.13(b,c). Physically, this is a consequence of the forward and backward travelling
              waves having different phase  speeds (Chen & Rosenberg  1971) - see also Section 3.7.
              Contrast this to Figure 3.13(a), where  u = 0 and the Coriolis forces vanish; in  this case
              classical normal modes do exist.
                The  dynamics  of  the  same  system  as  in  Figure 3.1 1  but  with  dissipation  taken  into
              account  (a = 5  x  lop3) is shown in  Figure 3.14. It is seen that coupled-mode flutter of

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                  -16
                         0         4         8         12          36       40  86   88
                                                     %Sle  (w)

              Figure 3.14  Dimensionless complex frequency diagram of  a damped clamped-clamped  pipe for
              j?  = 0.5, a = 5 x  IO-',  r = I7 = o = k  = y  = 0. The loci that  actually lie on the  [9m(w)]-axis
               have been  drawn off  the axis but parallel  to it for the sake of clarity  (Pai'doussis & Issid  1974).

                'If  the  various  parts  of  the  system  vibrate  with  the  same phase  and  they  pass  through  the  equilibrium
              configuration at the same instant of  time - as would be the case for a string or a beam  - the normal  modes
              (eigenmodes) are called classical. The necessary  and sufficient conditions for their existence were investigated
              by  Caughey & O'Kelley  (1965) and others: see also Chen (1987; Appendix A).