Rheological Behaviour for Polymer Melts and Concentrated Solutions Part Ⅲ: A New Multiple Entanglement Model to Predict the Dependence of Linear Viscoelastic Function (η_0, Ψ_(10)~0,η_(ext)~0) on the Ranges of Primary Molecular Weights and th 被引量：1

Rheological Behaviour for Polymer Melts and Concentrated Solutions Part Ⅲ: A New Multiple Entanglement Model to Predict the Dependence of Linear Viscoelastic Function (η_0, Ψ_(10)~0,η_(ext)~0) on the Ranges of Primary Molecular Weights and the

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摘要 It is shown theoretically that the viscoelasticity of polymer melts is determined by three combining factorst they are the primary molecular weight and its distribution, the number of entanglement sites on polymer chain and the sequence distribution of constituent chains in entanglement spacings. A unified quantity for the three combing factors is the average constrained dimensional number of constituent chains in the long entanglement spacings (v). A new relation of v to the primary molecular weight and the number of testing polymers were derived from the multiple entanglement and reptation model, and a new method for determining v was proposed. The dependences of linear viscoelastic functions on the primary molecular weight and its distribution were derived by the statistical method. When Mn=6Me to 18 Me, the values of (v) can range from 3.33 to 3.70. Their values are in a good agreement with the experiment data, and it can slightjy vary with the different species of polymers and the different ranges of molecular weight of polymers It is shown theoretically that the viscoelasticity of polymer melts is determined by three combining factorst they are the primary molecular weight and its distribution, the number of entanglement sites on polymer chain and the sequence distribution of constituent chains in entanglement spacings. A unified quantity for the three combing factors is the average constrained dimensional number of constituent chains in the long entanglement spacings (v). A new relation of v to the primary molecular weight and the number of testing polymers were derived from the multiple entanglement and reptation model, and a new method for determining v was proposed. The dependences of linear viscoelastic functions on the primary molecular weight and its distribution were derived by the statistical method. When Mn=6Me to 18 Me, the values of (v) can range from 3.33 to 3.70. Their values are in a good agreement with the experiment data, and it can slightjy vary with the different species of polymers and the different ranges of molecular weight of polymers

作者 Mingshi SONG and Jincai YANG (Research Institute of Polymeric Materials, Beijing University of Chemical Technology, Beijing, 100029, China)Yiding SHEN(North West Institute of Light Industry, Shanxi Xianyang, 712087, China)

出处《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 1995年第3期197-208,共12页 材料科学技术（英文版）

分类号 O631 [理学—高分子化学]

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参考文献1

1A. Schausberger,G. Schindlauer,H. Janeschitz-Kriegl. Linear elastico-viscous properties of molten standard polystyrenes[J] 1985,Rheologica Acta(3):220～227

同被引文献2

1Mingshi SONG,Sizhu WU and Xiuyun DU(Research Institute of Polymeric Materials, Beijing University of Chemical Technology, Beijing, 100029, China).Rheological Behaviour for Polymer Melts and Concentrated SolutionsPart Ⅱ: Material Function with Nagai Chain Constraints and Determination of Their Parameters from Flow Curves[J].Journal of Materials Science & Technology,1995,11(2):141-152. 被引量：3
2Mingshi SONG and Sizhu WU(Dept. of Polymer Science, Beijing University of Chemical Technology Beijing, 100029, China).Rheological Behaviour for Polymer Melts and Concentrated Solutions Part Ⅰ:A New Multiple Reptation Model to Predict the Nonlinear Visco-elasticity with Nagai Chain Constraints in Entangled Polymer Melts[J].Journal of Materials Science & Technology,1995,11(1):15-30. 被引量：2

引证文献1

1Mingshi SONG, Chen ZHANG and Guixian HU Research Institute of Polymeric Materials, Beijing University of Chemical Technology, Beijing 100029, China E-mail: wangzhchen@sina.com.Rheological Behavior for Polymer Melts and Concentrated Solutions——Part Ⅶ: A Quantitative Verification for the Molecular Theory of Non-linear Viscoelasticity with Entanglement Constraints in Polymer Melts[J].Journal of Materials Science & Technology,2001,17(3):375-382. 被引量：2

二级引证文献2

1李爽,张凤宝,张国亮,王燕.Molecular Imprinted Membrane with High Flux by Surface Photo-grafting Copolymerization[J].Chinese Journal of Chemical Engineering,2005,13(2):184-190. 被引量：2
2Mingshi SONG Guixian HU Zhihong YANG Qiang xu Sizhu WU.Dynamics of Polymeric Fluids 1. The Molecular Theory of Die Swell:A Set of Equation on Swelling Ratio in Extrudates[J].Journal of Materials Science & Technology,2006,22(1):93-107. 被引量：1

1Mingshi SONG and Sizhu WU(Dept. of Polymer Science, Beijing University of Chemical Technology Beijing, 100029, China).Rheological Behaviour for Polymer Melts and Concentrated Solutions Part Ⅰ:A New Multiple Reptation Model to Predict the Nonlinear Visco-elasticity with Nagai Chain Constraints in Entangled Polymer Melts[J].Journal of Materials Science & Technology,1995,11(1):15-30. 被引量：2
2Mingshi SONG,Sizhu WU and Xiuyun DU(Research Institute of Polymeric Materials, Beijing University of Chemical Technology, Beijing, 100029, China).Rheological Behaviour for Polymer Melts and Concentrated SolutionsPart Ⅱ: Material Function with Nagai Chain Constraints and Determination of Their Parameters from Flow Curves[J].Journal of Materials Science & Technology,1995,11(2):141-152. 被引量：3
3宋名实,吴丝竹,杨金才.RHEOLOGICAL BEHAVIOR OF POLYMER MELTS (Ⅱ) MULTIPLE ENTANGLEMENT MODEL FOR PREDICTING THE DEPENDENCE OF VISCOELASTIC BEHAVIOR ON DEFORMATION STATE AND PRIMARY MOLECULAR WEIGHTS AND THEIR DISTRIBUTION[J].Chinese Journal of Chemical Engineering,1996,4(2):34-49.
4Hua Wu SHAO,Jun Chao CAI (Shanghai Institute of Materia Medica, Chinese Academy of Sciences, Shanghai, 200031).STUDIES ON THE CRINUM ALKALOIDS PART I: SYNTHESIS OF ANHYDROLYCORINE-7-ONE[J].Chinese Chemical Letters,1996,7(1):13-14.
5Xin Song LI,Guo Chang WANG,Bing Lin HE(1 Department of Chemical Engineering, Southeast University. Nanjing 2100962 Institute of polymer Chemistry, Nankai University. Tianjin 300071).Entanglement of Polymer Chains in Concentrated Region by Fluorescence Probe Technique[J].Chinese Chemical Letters,1999,10(9):795-798. 被引量：1
6Hua Wu SHAO Fang Jie ZHANG Yu Lin LI State key Laboratory of Applied Organic Chemistry,Lanzhou University,Lanzhou 730000.STUDIES ON THE PRENYLFLAVONOIDS PART Ⅲ.SYNTHESIS OF(±)EUCHRENONE A_8[J].Chinese Chemical Letters,1993,4(3):189-194.
7毛诗珍,倪少儒,杜有如,沈联芳.Study of entangled network formation in concentrated solutions of polymer by ^(13)C NMR[J].Science China Chemistry,1996,39(2):187-191.
8WANG Shu-rong, YIN Qian-qian and LI Xin-bao State Key Laboratory of Clean Energy Utilization, Zhejiang University, Hangzhou 310027, P. R. China.Catalytic Performance and Texture of TEOS Based Cu/SiO_2 Catalysts for Hydrogenation of Dimethyl Oxalate to Ethylene Glycol[J].Chemical Research in Chinese Universities,2012,28(1):119-123. 被引量：3
9Song, MS,Zhou, W,Hu, GX,Hu, LJ.Rheological Behavior of Polymer Melts and Concentrated SolutionsPart V: A New Molecular Theory of Non-linear Viscoelasticity for Polymeric Suspensions[J].Journal of Materials Science & Technology,1999,15(2):169-177.
10迟锡增,周钧.流动注射－溶剂萃取－原子吸收光谱法测定微量锰（Ⅱ）[J].光谱学与光谱分析,1994,14(1):91-94. 被引量：2

Journal of Materials Science & Technology

1995年第3期

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Rheological Behaviour for Polymer Melts and Concentrated Solutions Part Ⅲ: A New Multiple Entanglement Model to Predict the Dependence of Linear Viscoelastic Function (η_0, Ψ_(10)~0,η_(ext)~0) on the Ranges of Primary Molecular Weights and th 被引量：1

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