In this paper, the mechanism of tension compensator (TC) was analyzed. The effect of TC on properties of Sirofil composite yarn, such as the hairiness property and the property of abrasion-resistance, was studied theoretically and experimentally. The theoretical results agreed very well with the experimental data. It was also shown that the adoption of TC greatly reduced the hairiness of Sirofil composite yarn, and the property of abrasion-resistance was improved enormously.
Yu, Y.P., Study on Performance and Mechanic Analysis of Compound Triangle Area for Siro-series Spinning Technology, PhD Thesis, Donghua University, China (2005).
2.
He, J.H. , Yu, Y.P., Pan, N., Cai, X.-C., Yu, J.-Y., and Wang, S.-Y., Quasistatic Model for Two-strand Yarn Spinning, Mech. Res. Commun.32(2), 197—200 (2005).
3.
He, J.H. , Yu, Y.P., Yu, J.Y., Li, W.-R., Wang, S.-Y., and Pan, N., A Linear Dynamic Model for Two-strand Yarn Spinning, Textile Res. J.75(1), 87—90 (2005).
4.
He, J.H. , Yu, Y.P., Yu, J.Y., Li, W.-R., Wang, S.-Y., and Pan, N., A Nonlinear Dynamic Model for Two-strand Yarn Spinning, Textile Res. J.75(2), 181—184 (2005).
5.
Yu, Y.-P., Liu, W.-Y., Chen, L.-D., A New Static Model for Sirofil Spinning, InternationalConference on Advanced Fibers and Polymer Materials, Shanghai , China (2005).
6.
Liu, Y., and He, J.-H., Bubble Electrospinning for Mass Production Nanofibers, International Journal of Nonlinear Sciences and Numerical Simulation8(3), 393—396 (2007).
7.
He, J.-H. , Wan, Y.-Q., and Xu, L., Nano-effects, Quantum-like Properties in Electrospun Nanofibers, Chaos Solitons Fractals33(1), 26—37 (2007 ).
8.
Wan, Y.-Q., He, J.-H., Xu, L., and Yu, J.-Y., Vibration-electrospinning for High-concentration Poly(Butylene Succinate)/ Chloroform Solution, Int. J. Electrospun Nanofibers Appl. 1(1), 17—28 (2007).
9.
Xu, L., He, J.-H., and Liu, Y., Electrospun Nanoporous Spheres with Chinese Drug, International Journal of Nonlinear Sciences and Numerical Simulation8(2), 199—200 (2007).
