Insight into the less β-phase induction by calcium pimelate in polypropylene random copolymer

IF 4.1 2区 化学 Q2 POLYMER SCIENCE
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Abstract

Although calcium pimelate (CaPim) is recognized as an efficient β-nucleating agent for polypropylene with nucleating ability solely for the β-phase, it was found to induce less β-phase in polypropylene random copolymer (PPR) compared to polypropylene homopolymer (PPH). Generally, this reduction is attributed to unfavorable β-growth. Besides growth, here, nucleation behavior was also investigated in detail. With nucleation barrier determined through fractionated crystallization, the relative β-nuclei proportion induced by CaPim was calculated to be 96.6 % for PPH and 79.1 % for PPR with 7.3 mol% ethylene inserted. This fewer β-nuclei induction may be linked to a decreased proportion of isometric sequences exceeding the critical length required for β-nucleation. As expected, the relative growth rate of the β- to α-phase (Gβ/Gα) is lower in PPR indicating unfavorable β-growth. These results indicate that diminished β-nuclei induction and subsequent unfavorable β-growth jointly result in less β-phase induction in PPR.

Abstract Image

聚丙烯无规共聚物中聚壬酸钙对β相诱导作用的深入研究
尽管聚丙烯酸钙(CaPim)被公认为是聚丙烯的高效 β 成核剂,其成核能力只针对 β 相,但研究发现,与聚丙烯均聚物(PPH)相比,它在聚丙烯无规共聚物(PPR)中诱导的 β 相较少。一般来说,这种减少归因于不利的 β 生长。除了生长之外,我们还对成核行为进行了详细研究。通过分馏结晶确定成核障碍后,计算出 CaPim 诱导的相对 β 核比例在 PPH 和 PPR 中分别为 96.6% 和 79.1%(其中乙烯插入量为 7.3 摩尔%)。β核诱导比例降低可能与超过β核形成所需的临界长度的等轴序列比例降低有关。正如预期的那样,PPR 中 β 相与 α 相的相对生长率(/)较低,这表明 β 生长不利。这些结果表明,β核诱导的减少和随后不利的β生长共同导致了 PPR 中β相诱导的减少。
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来源期刊
Polymer
Polymer 化学-高分子科学
CiteScore
7.90
自引率
8.70%
发文量
959
审稿时长
32 days
期刊介绍: Polymer is an interdisciplinary journal dedicated to publishing innovative and significant advances in Polymer Physics, Chemistry and Technology. We welcome submissions on polymer hybrids, nanocomposites, characterisation and self-assembly. Polymer also publishes work on the technological application of polymers in energy and optoelectronics. The main scope is covered but not limited to the following core areas: Polymer Materials Nanocomposites and hybrid nanomaterials Polymer blends, films, fibres, networks and porous materials Physical Characterization Characterisation, modelling and simulation* of molecular and materials properties in bulk, solution, and thin films Polymer Engineering Advanced multiscale processing methods Polymer Synthesis, Modification and Self-assembly Including designer polymer architectures, mechanisms and kinetics, and supramolecular polymerization Technological Applications Polymers for energy generation and storage Polymer membranes for separation technology Polymers for opto- and microelectronics.
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