| Schneggenburger et al. [J. Non-Newtonian Fluid Mech. 62 (1996) 235-251] extended the original FENE dumbbell kinetic theory to describe concentration dependent shear-induced anisotropy in dilute polymer solutions by a mean-field approach. Besides providing an errata to the above mentioned paper and two revised figures we present related analytic results for steady shear and uniaxial elongational flow. Within the same framework we further consider a modified FENE potential and briefly discuss its implications.
for LaTeX users @article{MKroger2005-125,
author = {M. Kr\"oger and E. De. Angelis},
title = {An extended FENE dumbbell model theory for concentration dependent shear-induced anisotropy in dilute polymer solutions: addenda},
journal = {J. Non-Newtonian Fluid Mech.},
volume = {125},
pages = {87-90},
year = {2005}
}
\bibitem{MKroger2005-125} M. Kr\"oger, E. De.Angelis,
An extended FENE dumbbell model theory for concentration dependent shear-induced anisotropy in dilute polymer solutions: addenda,
J. Non-Newtonian Fluid Mech. {\bf 125} (2005) 87-90.MKroger2005-125
M. Kr\"oger, E. De.Angelis
An extended FENE dumbbell model theory for concentration dependent shear-induced anisotropy in dilute polymer solutions: addenda
J. Non-Newtonian Fluid Mech.,125,2005,87-90 |
 by bike, and we can drink coffee and chat with you about education issues! We further care about science and serious work here.</small>&level=0&sublevel=3){kind=link}