Thermal Conductivity of Carbon Nanofibre-Polypropylene Composite Foams

机译：碳纳米纤维-聚丙烯复合泡沫的导热系数

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Carbon nanofibre-reinforced polypropylene nanocomposites containing from 5 to 20 wt.% of carbon nanofibres and a chemical blowing agent were melt-compounded and later foamed using compression-moulding. Alongside their foaming behaviour analysis and cellular characterization, foams showing an increasingly finer isometric cellular structure with increasing the amount of nanofibres, their thermal conductivity was determined using the Transient Plane Source Method (TPS). Contrarily to the electrical conductivity, which has previously been shown to rise with increasing the amount of carbon nanofibres [1], the addition of the nanofibres did not significantly alter the thermal conductivity of the PP foams, their value being mainly affected by the relative density, only slight differences being assessed for the higher expansion ratio PP-CNF foams.

机译：将包含5至20重量％的碳纳米纤维和化学发泡剂的碳纳米纤维增强的聚丙烯纳米复合材料熔融复合，然后使用压模法发泡。除了其起泡行为分析和孔结构表征外，随着纳米纤维数量的增加，泡沫显示出越来越精细的等距孔结构，并使用瞬态平面源法（TPS）确定了它们的热导率。与先前显示出随着碳纳米纤维数量的增加而增加的电导率相反[1]，纳米纤维的添加并没有显着改变PP泡沫的热导率，它们的值主要受相对密度的影响。，对于较高膨胀比的PP-CNF泡沫，仅评估了微小差异。

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《International conference on diffusion in solids and liquids, mass transfer-heat transfer-microstructure properties-nanodiffusion and nanostructured materials;DSL-2009》|2010年|p.996-1001|共6页
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M. Antunes; V. Realinho; E. Solorzano; M.A. Rodriguez-Perez; J.A. de Saja; J.I. Velasco;
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中图分类工程材料一般性问题;
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thermal conductivity; carbon nanofibres; polypropylene; foams;

机译：导热系数;碳纳米纤维聚丙烯;泡沫;

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1. Thermal Conductivity of Carbon Nanofibre-Polypropylene CompositeFoams [J] . M. Antunes, V. Realinho, E. Solorzano, Diffusion and Defect Data. Solid State Data, Part A. Defect and Diffusion Forum . 2010,第Pta2期

机译：碳纳米纤维-聚丙烯复合泡沫的导热系数
2. Enhanced thermal conductivity of palmitic acid/copper foam composites with carbon nanotube as thermal energy storage materials [J] . Cong Rongshuai, Xu Changlu, Chen Yunkang, Journal of Energy Storage . 2021,第Auga期

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3. Hierarchical porous carbon foam-based phase change composite with enhanced loading capacity and thermal conductivity for efficient thermal energy storage [J] . Wang Miao, Li Pan, Yu Faquan Renewable energy . 2021,第Jula期

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4. Thermal Conductivity of Carbon Nanofibre-Polypropylene Composite Foams [C] . M. Antunes, V. Realinho, E. Solorzano, International conference on diffusion in solids and liquids, mass transfer-heat transfer-microstructure properties-nanodiffusion and nanostructured materials . 2010

机译：碳纳米纤维聚丙烯复合泡沫的导热系数
5. Effects of carbon nanofibers on cell morphology, thermal conductivity and crush strength of carbon foam. [D] . Fawcett, William Edmond. 2009

机译：碳纳米纤维对碳泡沫的泡孔形态，导热性和抗碎强度的影响。
6. Fabrication of Poly(butylene succinate)/Carbon Black Nanocomposite Foams with Good Electrical Conductivity and High Strength by a Supercritical CO2 Foaming Process [O] . Zhou Chen, Junfeng Hu, Jiajun Ju, 2019

机译：超临界CO2发泡法制备导电性好强度高的聚丁二酸丁二醇酯/炭黑纳米复合泡沫
7. Effects of graphene concentration, relative density and cellular morphology on the thermal conductivity of polycarbonate–graphene nanocomposite foams [O] . Gedler, Gabriel, Antunes, Marcelo de Sousa Pais, Velasco Perero, José Ignacio, 2018

机译：石墨烯浓度，相对密度和细胞形态对聚碳酸酯 - 石墨烯纳米复合泡沫塑料导热系数的影响
8. Technical Operations Support III (TOPS III). Delivery Order 0081: Novel Pitch Materials for High Thermal Conductivity Carbon Fibers, Foams and Composites - Phase 3. [R] . Ogale, A. A. 2011

机译：技术运营支持III（TOps III）。交货单0081：用于高导热碳纤维，泡沫和复合材料的新型沥青材料 - 第3阶段。

Thermal Conductivity of Carbon Nanofibre-Polypropylene Composite Foams

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