Transcrystallinity in maize tissues/polypropylene composites: First focus of the heterogeneous nucleation and growth stages versus tissue type

IF 1.9 Q2 CRYSTALLOGRAPHY Polymer Crystallization Pub Date : 2020-10-02 DOI:10.1002/PCR2.10155

S. Boyer, J. Haudin, Vivian Song, Vincent Bourassier, P. Navard, C. Barron

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Abstract

The improvement of cellulosic biomass-polymer composites needs to evaluate what occurs at the biomass-matrix interface during crystallization. Different well-defined maize tissues were obtained by original dry fractionation processes, without chemical treatment. Their morphological features were identified by optical and scanning electron microscopies. For each type of tissue, a small fragment was sandwiched between two films of isotactic polypropylene. The composite was subjected to quiescent isothermal conditions, followed in-situ by polarized optical microscopy. Focus of the heterogeneous nucleation at the surface of maize tissues showed that in all cases, more or less numerous semi-crystalline entities originated from the tissue surface, indicating a moderate nucleating activity. Different crystallization behaviors were observed as a function of the tissue. Growth rates of surface layers were generally higher that the growth rates of bulk spherulites. The differences were small, but significant. They were discussed within the frame of kinetic theory of growth.

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玉米组织/聚丙烯复合材料的跨结晶性：非均匀成核和生长阶段与组织类型的第一焦点

纤维素-生物质-聚合物复合材料的改进需要评估结晶过程中生物质-基体界面发生的情况。在没有化学处理的情况下，通过原始的干分级工艺获得了不同的明确的玉米组织。通过光学显微镜和扫描电子显微镜鉴定了它们的形态特征。对于每种类型的组织，在两层全同立构聚丙烯薄膜之间夹一小块。将复合材料置于静态等温条件下，然后通过偏振光学显微镜原位观察。玉米组织表面非均匀成核的焦点表明，在所有情况下，或多或少有许多半结晶实体起源于组织表面，表明具有中等的成核活性。观察到不同的结晶行为作为组织的功能。表层的生长速率通常高于大块球晶的生长速率。差异很小，但很显著。它们是在增长动力学理论的框架内讨论的。

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来源期刊

Polymer Crystallization Materials Science-Materials Science (miscellaneous)

CiteScore

4.70

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0.00%

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