半结晶聚对苯二甲酸乙二醇酯的碳颗粒和控制水解辅助挤出发泡以增强隔热性能

IF 3.2 4区 工程技术 Q2 CHEMISTRY, APPLIED
Junjie Pan, Feng Chen, E. Cabrera, Zhiyu Min, Shilun Ruan, Min Wu, Dan Zhang, J. Castro, L. J. Lee
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引用次数: 2

摘要

这项工作提出了一种简单的方法来生产低密度PET泡沫,使用原始的半结晶树脂,在一个紧密的加工窗口(水分含量~ 0.12 wt.%)中通过水分诱导的受控水解。研究了含水量和含湿活性炭(AC)对泡沫膨胀率、细胞形态以及PET树脂降解和结晶性能的影响。控制水解提高了PET树脂的熔体流动速率(特性粘度:0.52 ~ 0.54 dL/g),而不失去结晶度,因此PET泡沫具有比化学改性PET泡沫更好的拉伸性能(~ 2 MPa应力和~ 100%应变)和更高的热稳定性(>200°C)。使用实验室规模的双螺杆挤出机,泡沫密度可以低至~ 0.15 g/cm3。还设计了一种链阵列模具来生产板状泡沫样品。AC可以更容易地控制水分含量和延迟树脂在挤出过程中的降解。AC和微石墨(mGr)均能稳定挤出过程中的PET泡沫形态,并在模拟房屋保温实验中作为良好的红外衰减剂(IAAs)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Carbon particulate and controlled-hydrolysis assisted extrusion foaming of semi-crystalline polyethylene terephthalate for the enhanced thermal insulation property
This work presents a facile method to produce low-density PET foams using pristine semi-crystalline resin by moisture-induced controlled-hydrolysis in a tight processing window (moisture content ∼ 0.12 wt.%). We investigated the effect of moisture and moisture containing activated carbon (AC) on the foam expansion ratio, cell morphology, and PET resin degradation and crystallization properties. Controlled-hydrolysis increased the melt-flow rate of PET resin (intrinsic viscosity: 0.52 to 0.54 dL/g) without losing crystallinity, and thus the PET foams possess better tensile properties (∼2 MPa stress and ∼100% strain) and higher thermal stability (>200°C) than chemically modified PET foams. The foam density could be made as low as ∼ 0.15 g/cm3 using a lab scale twin-screw extruder. A strand array die was also designed to produce plate-shaped foam samples. AC allowed easier control of the moisture content and delayed resin degradation in extrusion. Both AC and micrographite (mGr) could stabilize the PET foam morphology in extrusion and serve as good infrared attenuation agents (IAAs) in a simulated housing thermal insulation experiment.
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来源期刊
Journal of Cellular Plastics
Journal of Cellular Plastics 工程技术-高分子科学
CiteScore
5.00
自引率
16.00%
发文量
19
审稿时长
3 months
期刊介绍: The Journal of Cellular Plastics is a fully peer reviewed international journal that publishes original research and review articles covering the latest advances in foamed plastics technology.
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