Phase Evolution Theory for Polymer Blends with Extreme Chemical Dispersity: Parameterization of DDFT Simulations and Application to Poly(propylene) Impact Copolymers

Johannes G. E. M. Fraaije; Shyamal K. Nath; Klaas Remerie; Jan Groenewold

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Phase Evolution Theory for Polymer Blends with Extreme Chemical Dispersity: Parameterization of DDFT Simulations and Application to Poly(propylene) Impact Copolymers

机译：具有极高化学分散性的聚合物共混物的相演化理论：DDFT模拟的参数化及其在聚丙烯（丙烯）抗冲共聚物中的应用

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DDFT is applied to phase formation in homopolymer/copolymer blends in which the copolymer is extremely disperse with a uniform chemical composition distribution. Such systems develop a core/shell structure with a thick interface. This study is motivated by peculiarities in the phase evolution of industrial PP high-impact copolymers. It is demonstrated that it is possible to reach time and length scales of relevance for realistic industrial blend systems. A rational method for improving the numerical efficiency of the calculations is presented. The model can be applied to a variety of industrially relevant systems with similar “random chemistry” or extreme copolymer dispersity in coatings, crude oil recovery systems, food emulsions, and so forth.

机译：DDFT适用于均聚物/共聚物共混物中的相形成，其中共聚物以化学成分均匀分布的方式非常分散。这样的系统开发出具有较厚接口的核/壳结构。这项研究的动机是工业PP高抗冲共聚物的相变特性。结果表明，有可能达到与实际工业混合体系相关的时间和长度尺度。提出了一种提高计算数值效率的合理方法。该模型可以应用于具有类似“随机化学”或在涂料，原油采收系统，食品乳液等中具有极高的共聚物分散性的各种工业相关系统。

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来源
《Macromolecular Theory and Simulations》 |2011年第2期|p.133-145|共13页
作者
Johannes G. E. M. Fraaije; Shyamal K. Nath; Klaas Remerie; Jan Groenewold;
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作者单位

Department of Soft Matter Chemistry, Leiden University, PO BOX 9502, 2300 RA Leiden, The Netherlands;

Culgi Inc., Albuquerque, USA;

SABIC T&I, STC Geleen, Geleen, The Netherlands;

Department of Physical and Colloid Chemistry, Utrecht University, The Netherlands;

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原文格式 PDF
正文语种 eng
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关键词
computer simulations; impact copolymers; morphology; polymer blends; polyolefines;

机译：计算机模拟;冲击共聚物;形态;聚合物共混物;聚烯烃;

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1. Phase evolution theory for polymer blends with extreme chemical dispersity: Parameterization of DDFT simulations and application to poly(propylene) impact copolymers [J] . Fraaije J.G.E.M., Nath S.K., Remerie K., Macromolecular theory and simulations . 2011,第2期

机译：具有极高化学分散性的聚合物共混物的相演化理论：DDFT模拟的参数化及其在聚（丙烯）抗冲共聚物中的应用
2. Phase behavior, crystallization, and hierarchical nanostructures in self-organized thermoset blends of epoxy resin and amphiphilic poly(ethylene oxide)-block-poly(propylene oxide)-block-poly(ethylene oxide) triblock copolymers [J] . Guo QP., Thomann R., Gronski W., Macromolecules . 2002,第8期

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3. Compatibilized polymer blends with nanoscale or sub-micron dispersed phases achieved by hydrogen-bonding effects: Block copolymer vs blocky gradient copolymer addition [J] . Jungki Kim, Robert W. Sandoval, Christine M. Dettmer Polymer: The International Journal for the Science and Technology of Polymers . 2008,第11期

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4. A novel Nafion - Li/poly (vinylidene fluoridehexafluoro-propylene) copolymer blend electrolyte studiedby electrochemical impedance spectroscopy [C] . International Beijing conference and exhibition on instrumental analysis;BCEIA 2003 . 2003

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5. Cocontinuous polymer blends: The role of block copolymer in blend morphology evolution. [D] . Bell, Joel Richard. 2007

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6. Risperidone Controlled Release Microspheres Based on Poly(Lactic Acid)-Poly(Propylene Adipate) Novel Polymer Blends Appropriate for Long Acting Injectable Formulations [O] . Stavroula Nanaki, Panagiotis Barmpalexis, Alexandros Iatrou, 2018

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8. Dense Multiphase Flow Simulation: Continuum Model for Poly-Dispersed Systems Using Kinetic Theory. [R] . Bogere, M. N. 2011

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Phase Evolution Theory for Polymer Blends with Extreme Chemical Dispersity: Parameterization of DDFT Simulations and Application to Poly(propylene) Impact Copolymers

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