Effect of constitutive equations on theoretical analysis in melt spinning process

Seong Cheol Kim; Tae Hwan Oh; Sung Soo Han; Won Seok Lyoo

Korea-Australia Rheology Journal, Vol.21, No.3, 149-153, September, 2009

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Effect of constitutive equations on theoretical analysis in melt spinning process

Seong Cheol Kim, Tae Hwan Oh^†, Sung Soo Han, and Won Seok Lyoo

School of Textiles, Yeung nam University, Kyeongsan 712-749, Korea

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Profile development of the melt spinning process of poly(ethylene terephthalate) (PET) was simulated by a numerical method under the consideration of two constitutive equations of Newtonian and upper convected Maxwell (UCM) models. The viscoelastic characteristics of the polymer were considered via UCM constitutive equation that considered relaxation time as a function of temperature and molecular weight. The UCM model predicted the diameter profile better than the Newtonian, while velocity development was slower than the Newtonian model. Viscoelasticity played an important role in accurately predicting diameter profile. However, even though neck-like deformation was observed in the UCM model, the exact position of the deformation under high speed spinning was not obtained.

Keywords:profile development;numerical method;diameter profile;velocity profile

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[1] Cao J, Kikutani T, Takaku A, Shimizu J, J Appl Polym Sci., 37, 2683 (1989)

[2] Denton JS, Cuculo JA, Tucker PA, J. Appl. Polym. Sci., 57(8), 939 (1995)

[3] Goerge HH, Polym Eng Sci., 22, 292 (1982)

[4] George HH, Holt A, Buckley A, Polym Eng Sci., 23, 95 (1983)

[5] Gregory DR, Transactions of Soc. Rheology, 17, 191 (1973)

[6] Katayama K, Yoon MG, High-speed fiber spinning, Wiley-Interscience, New York, 207-223. (1985)

[7] Kase S, Matsuo T, J Polym Sci, Polym. Chem., 3, 2541 (1965)

[8] Kikutani T, Radhakrishnan J, Arikawa S, Takaku A, Okui N, Jin X, Niwa F, Kudo Y, J. Appl. Polym. Sci., 62(11), 1913 (1996)

[9] Shimizu J, Okui N, Kikutani T, High-speed fiber spinning, Wiley-Interscience, New York, 173-201. (1985)