近期论文
Wang, C.S., Li M., Wang, H.P, Wang, X.Q., and Fantoni R.F. Monte Carlo Technique to Simulate Amide Interchange Reactions, 2. An Improved Model and PA6/PA66 Blend System, Iranian Polymer Journal. 2009,18(1): 49-61 Zhu, X.L., Wang, B., Chen, S.Y., Wang, C.S., Zhang, Y.M., and Wang, H.P. Synthesis and Non-isothermal Crystallization Behavior of PET/surface-treated TiO2 Nanocomposites. Journal of Macromolecular Science, Part B: Physics. 2008, 47(6): 1117-1129 Zhu, X.L., Wang,C.S., Wang, B., and Wang, H.P. Non-isothermal crystallization kinetics and nucleation activity of filler in polypropylene/microcrystalline cellulose composites. Iranian Polymer Journal. 2008,17(4) :297-309 Zhang, C.X., Wang, H.P., and Wang, C.S*. Poly(trimethylene terephthalate) fiber melt-spinning:material parameters and computer simulation. Fibers and Polymers. 2007, 8(3):295 Zhang, C.X., Wang, C.S., and Wang, H.P. Multifilament model of PET melt spinning and prediction of as-spun fiber's quality. Journal of Macromolecular Science, Part B: Physics. 2007, 46(4):793 Lü, W.J., Zhu, X.L., Zhang, Y.M., Wang, H.P., Wang, C.S.*, and Ye, Y.T. Crystallization behavior of rare-earth luminous polyamide 6 composites. Journal of Macromolecular Science, Part B: Physics. 2007, 46(5): 949 Liu, Z.H., Wang, C.S.*, Wang, X.Q., Huang, N.X., and Fantoni, R.F. Monte carlo technique to simulate amide interchange reactions, influence of amide interchange reactions on molecular weight distribution. Macromolecular Theory and Simulations. 2005, 41:164 Wang, C.S., Zhao, R.H., and Wang, H.P. Phenomenological Multifilament Model of PET Melt Spinning, The Fiber Society 2008 Fall Meeting and Technical Conference, Boucherville, Canada, Oct. 2008:114 Wang C.S.*, Zhao R.-H, Han Q.-X., Zhang C.-X., Wang H.-P, Zhang Y., Xiao G., Dynamics model and simulation of polyethylene terephthalate (PET) hollow fiber, Journal of Donghua University, 2009,26(4): 387
