Issue Section:
Technical Briefs
1.
Ahmadian
M. T.
Burmeister
L. C.
1990
a, “Viscous Dissipation Effect on Solidification of a Liquid Onto a Tube Wall
,” Polymer Engineering and Science
, Vol. 30
, pp. 776
–782
.2.
Ahmadian, M. T., and Burmeister, L. C., 1990b, “Viscous Dissipation Effect on Solidification of a Power-Law Liquid Onto a Tube Wall,” Fundamentals of Phase Change: Freezing, Melting, and Sublimation, ASME HTD-Vol. 143, pp. 31–37.
3.
Brewster
R. A.
Irvine
Th. F.
1987
, “Similitude Considerations in Laminar Flow of Modified Power Law Fluids in Circular Ducts
,” Wa¨rme- und Stoffu¨bertragung
, Vol. 21
, pp. 83
–86
.4.
Dunleavy
J.
Middleman
S.
1966
, “Relation of Shear Behavior of Solutions of Polyisobutylene
,” Trans. Soc. Rheol.
, Vol. 10
, pp. 151
–168
.5.
Fukusako
S.
Yamada
M.
1994
, “Solidification of Pure Liquids and Liquid Mixtures Inside Ducts and Over External Bodies
,” Applied Mechanics Reviews
, Vol. 47
, pp. 589
–621
.6.
Luelf, W.C., 1994, “Dissipation Effect on Pressure Gradient for Non-Newtonian Liquid Flowing Laminarly Through a Duct of Subfreezing Wall Temperature,” M. S. thesis, University of Kansas, Lawrence, KS.
7.
Luelf, W. C., 1995, “Viscous Dissipation Effects on Pressure Gradient Through a Duct With Subfreezing Wall Temperature,” General Papers in Heat and Mass Transfer (Proc. 30th National Heat Transfer Conf., V. 8), ASME HTD-Vol. 310, pp. 35–42.
8.
Yang
L. C.
Charmchi
M.
Chen
S. J.
1992
, “Numerical Simulation of Semicrystalline Polymer Flowing in an Empty Tube With Solidification
,” Polymer Engineering and Science
, Vol. 32
, pp. 724
–731
.
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