Comparison of Flow-induced Crystallization Melt Spinning Processes
Bird RB, Amstrong RC, Hassager O (1987)Dynamics of Polymeric Liquids. 2nd edition,Volume 1: Fluid Mechanics, JohnWiley & Sons.
Br¨unig H, Roland H, Blechschmidt D (1997) High Filament Velocities in the Underpressure Spunbonding Nonwoven Process. IFJ:129-134, December 1997.
Kase S, Matsuo T (1965) Studies on Melt Spinning, Fundamental Equations on the Dynamics of Melt Spinning. J. Polym. Sci. Part A 3: 2541-2554.
Langtangen HP (1997) Derivation of a Mathematical Model for Fiber Spinning. Department of Mathematics, Mechanics Division, University of Oslo, December 1997.
Lee JS, Jung HW, Hyun JC, Seriven LE (2005) Simple Indicator of Draw Resonance Instability in Melt Spinning Processes. AIChE J., Vol. 51, No. 10:2869-2874.
Lee JS, Shin DM, Jung HW, Hyun JC (2005) Transient Solution of the Dynamics in Low-Speed Fiber Spinning Process Accompanied by Flow-induced Crystallization. J. Non-Newtonian Fluid Mech. 130:110-116.
Perera SSN (2008) Phase-Space Analysis ofMelt Spinning Processes, Nihon Reoroji Gakkaishi, Vol: 36 No. 4:161-166.
Perera SSN (2009) Viscoelastic Effect in the Non-IsothermalMelt Spinning Processes, Applied Mathematical Sciences, Vol: 3 No: 4: 177-186.
Shampine LF, Reichelt MW (1997) The MATLAB ODE Suite. SIAM J. Sci. Comput., Vol: 18:1-22.
Ziabicki A (1976) Fundamentals of Fiber Formation. Wiley-Interscience, New York.
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