Poly(ε-caprolactone) based nanocomposites reinforced by surface-grafted cellulose nanowhiskers via extrusion processing: Morphology, rheology, and thermo-mechanical properties

Goffin A.-L.; Raquez J.-M.; Duquesne E.; Siqueira G.; Habibi Y.; Dufresne A.; Dubois P.

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Poly(ε-caprolactone) based nanocomposites reinforced by surface-grafted cellulose nanowhiskers via extrusion processing: Morphology, rheology, and thermo-mechanical properties

机译：表面接枝的纤维素纳米晶须通过挤压加工增强的聚（ε-己内酯）基纳米复合材料：形态，流变学和热机械性能

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Poly(ε-caprolactone)-grafted cellulose nanowhiskers (extracted from ramie: CNWr) synthesized by ring-opening polymerization of the corresponding lactone [1] were studied as "masterbatches" by melt-blending within its commercial poly(ε-caprolactone) matrix (PCL). For sake of comparison, unmodified CNWr were also dispersed in PCL. The goal of this study consists to evidence the impact of the covalent grafting of CNWr surface on thermo-mechanical properties of the commercial matrices. Atomic force microscopy (AFM) attests of the excellent dispersion of the cellulose nanowhiskers within PCL matrix. As a result of the excellent interfacial compatibility between the nanofiller and the matrix, the thermo-mechanical and rheological performances were largely enhanced.

机译：通过将相应的内酯[1]开环聚合而合成的聚（ε-己内酯）接枝的纤维素纳米晶须（从麻：CNWr中提取）被研究为通过在其商用聚（ε-己内酯）基质中熔融共混而作为“母料” （PCL）。为了比较，未修饰的CNWr也分散在PCL中。这项研究的目的在于证明CNWr表面的共价接枝对商业基质的热机械性能的影响。原子力显微镜（AFM）证明了PCL基质中纤维素纳米晶须的出色分散性。由于纳米填料与基体之间的优异界面相容性，大大提高了热机械性能和流变性能。

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来源
《Polymer: The International Journal for the Science and Technology of Polymers》 |2011年第7期|共7页
作者
Goffin A.-L.; Raquez J.-M.; Duquesne E.; Siqueira G.; Habibi Y.; Dufresne A.; Dubois P.;
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正文语种 eng
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Cellulose nanowhiskers; Nanocomposites; Poly(ε-caprolactone);

机译：纤维素纳米晶须;纳米复合材料;聚（ε-己内酯）;

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1. Poly(ε-caprolactone) based nanocomposites reinforced by surface-grafted cellulose nanowhiskers via extrusion processing: Morphology, rheology, and thermo-mechanical properties [J] . Goffin A.-L., Raquez J.-M., Duquesne E., Polymer: The International Journal for the Science and Technology of Polymers . 2011,第7期

机译：表面接枝的纤维素纳米晶须通过挤压加工增强的聚（ε-己内酯）基纳米复合材料：形态，流变学和热机械性能
2. Effect of montmorillonite on morphology, rheology, and properties of a poly[styrene-(ethylene-co-butylene)-styrene]/poly(E >-caprolactone) nanocomposite [J] . Li Xiaoyan, Huang Kai, Wang Xue, Journal of Materials Science . 2018,第2期

机译：Montmorillonite对聚[苯乙烯 - （乙烯 - 丁烯） - 苯乙烯] /聚（E> - 己内酯）纳米复合材料的形态学，流变学和性质的影响
3. Micro Phase separated epoxy/poly(epsilon-caprolactone)-block-poly(dimethyl siloxane)-block-poly(epsilon-caprolactone)/4,4 '-diaminodiphenylsulfone systems: Morphology, viscoelasticity, thermo-mechanical properties and surface hydrophobicity [J] . Parameswaranpillai Jyotishkumar, Sidhardhan Sisanth Krishnan, Jose Seno, Polymer Testing . 2016,第Null期

机译：微相分离的环氧/聚（ε-己内酯）-嵌段-聚（二甲基硅氧烷）-嵌段-聚（ε-己内酯）/ 4,4'-二氨基二苯砜体系：形态，粘弹性，热机械性能和表面疏水性
4. THE EXTENT OF FILLER'S ORGANO-MODIFICATION AND THE RESULTING MORPHOLOGY AND THERMO-MECHANICAL PROPERTIES OF POLY(Ε-CAPROLACTONE)/CLAY NANOCOMPOSITES^ [C] . S. I. Marras, I. Zuburtikudis, A. Tsimpliaraki American Institute of Chemical Engineers Annual Meeting . 2008

机译：填料有机体改性的程度和聚（ε-己内酯）/粘土纳米复合材料的结果形态和热力学性能^
5. Bioactive Cellulose Nanocrystal Reinforced 3D Printable Poly(epsilon-caprolactone) Nanocomposite for Bone Tissue Engineering. [D] . Hong, Jung Ki. 2015

机译：用于骨组织工程的生物活性纤维素纳米晶体增强的3D可打印聚（ε-己内酯）纳米复合材料。
6. Functional Properties of Poly(Trimethylene Terephthalate)-Block-Poly(Caprolactone) Based Nanocomposites Containing Graphene Oxide (GO) and Reduced Graphene Oxide (rGO) [O] . Sandra Paszkiewicz, Daria Pawlikowska, Magdalena Kurcz, 2019

机译：聚（三甲基对苯二甲酸乙二醇酯） - 甲基聚（己内酯）基纳米复合材料的功能性质含有石墨烯（GO）和氧化石墨烯（RGO）
7. Processing Routes for the Preparation of Poly(Lactic Acid)/Cellulose-Nanowhisker Nanocomposites for Packaging Applications [O] . Juan I. Moran, Leandro N. Ludueña, Vu Thanh Phuong, 2016

机译：用于制备聚（乳酸）/纤维素 - 纳米须纳米型纳米复合材料的加工途径，用于包装应用

Poly(ε-caprolactone) based nanocomposites reinforced by surface-grafted cellulose nanowhiskers via extrusion processing: Morphology, rheology, and thermo-mechanical properties

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