Prediction of molecular weight distribution and long-chain branching distribution of low-density polyethylene from a kinetic model

Nordhus H; Moen O; Singstad P; SINTEF ELECT amp; CYBERNET N-7034 TRONDHEIM NORWAY.

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Prediction of molecular weight distribution and long-chain branching distribution of low-density polyethylene from a kinetic model

机译：从动力学模型预测低密度聚乙烯的分子量分布和长链支化分布

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The molecular weight distribution and the long-chain branching distribution of low-density polyethylene are predicted as a function of the synthesis conditions from a kinetic model for an autoclave reactor. The model includes initiations, propagation, termination by combination and disproportionation, and chain transfer to monomer, solvent, and polymer. Recursion formulas are developed to calculate the whole distribution density functions. A numerical method for solving the model equations is proposed. Several simulations have been performed to demonstrate the method, and predictions of long-chain branching distributions of an industrial autoclave reactor are compared with laboratory measurements.

机译：从高压釜反应器的动力学模型预测低密度聚乙烯的分子量分布和长链支化分布与合成条件的关系。该模型包括引发，扩散，结合和歧化终止以及链转移至单体，溶剂和聚合物。开发了递归公式以计算整个分布密度函数。提出了一种求解模型方程的数值方法。已经进行了一些模拟来证明该方法，并且将工业高压釜反应器的长链支化分布的预测与实验室测量值进行了比较。

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《Journal of Macromolecular Science. Pure and Applied Chemistry》 |1997年第6期|共27页
作者
Nordhus H; Moen O; Singstad P; SINTEF ELECT amp; CYBERNET N-7034 TRONDHEIM NORWAY.;
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正文语种 eng
中图分类高分子化学（高聚物）;
关键词
polyethylene; molecular weight distribution; long-chain branching distribution; OLEFIN POLYMERIZATION; REACTORS;

机译：聚乙烯;分子量分布;长链支化分布;烯烃聚合;反应器;

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1. Prediction of molecular weight distribution and long-chain branching distribution of low-density polyethylene from a kinetic model [J] . Nordhus H, Moen O, Singstad P, Journal of Macromolecular Science. Pure and Applied Chemistry . 1997,第6期

机译：从动力学模型预测低密度聚乙烯的分子量分布和长链支化分布
2. Prediction of the bivariate molecular weight-long chain branching distribution in high-pressure low-density polyethylene autoclaves [J] . Krallis A, Pladis P, Kiparissides C Macromolecular theory and simulations . 2007,第6期

机译：高压低密度聚乙烯高压釜中双变量分子量-长链支化分布的预测
3. Modeling molecular weight and degree of branching distribution of low-density polyethylene [J] . Iedema PD., Hoefsloot HCJ., Wulkow M. Macromolecules . 2000,第19期

机译：模拟低密度聚乙烯的分子量和支化度
4. Modeling and Measurement of High Pressure Ethylene Polymerization long-Chain Branching and Molecular Weight Distributions [C] . R.A.Hutchinson, R.E.Fuller, Deutsche Gesellschaft fuer Chemisches Apparatewesen Chemische Technik und Biotechnologie e.V. International workshop on polymer reaction engineering . 1998

机译：高压乙烯聚合长链支化和分子量分布的建模与测定
5. Modeling of molecular weight distributions in Ziegler-Natta catalyzed ethylene copolymerizations. [D] . Thompson, Duncan Edward. 2009

机译：在齐格勒-纳塔催化的乙烯共聚反应中的分子量分布建模。
6. On the Role of Catabolic Enzymes in Biosynthetic Modelsof Glycogen Molecular Weight Distributions [O] . SharifS. Nada, Robert G. Gilbert, * 2017

机译：分解代谢酶在生物合成模型中的作用糖原分子量分布
7. A Method of Measuring the Critical Shear Stress of Molten High-Density Polyethylene (HDPE) and the Relationship between the Critical Shear Stress and Molecular Weight or Molecular Weight Distribution [O] . Takatoshi Shimura, Eiichi Takatori, Takeshi Yamamoto 2010

机译：一种测量熔融高密度聚乙烯（HDPE）的临界剪切应力的方法及临界剪切应力与分子量或分子量分布之间的关系
8. Solid State Coextrusion of High Density Polyethylene. II. Effect of Molecular Weight and Molecular Weight Distribution. [R] . Zachariades, A. E., Kanamoto, T., Porter, R. S. 1978

机译：高密度聚乙烯的固态共挤出。 II。分子量和分子量分布的影响。

Prediction of molecular weight distribution and long-chain branching distribution of low-density polyethylene from a kinetic model

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