对聚氨酯和酚醛泡沫进行机械再加工,提高隔热材料的可持续性

IF 5 2区 材料科学 Q1 MATERIALS SCIENCE, CHARACTERIZATION & TESTING
Laura Simonini , Alessandro Sorze , Lorenza Maddalena , Federico Carosio , Andrea Dorigato
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引用次数: 0

摘要

在这项工作中,对聚氨酯(PU)和酚醛泡沫(PF)板材进行了机械研磨,并将其加入用于隔热的发泡聚氨酯基体中,以减少原始材料的使用,促进循环再利用回收材料。通过扫描电子显微镜观察,含有这两种回收材料的配方显示出相当均匀的细胞结构,但它们的存在导致封闭孔隙率大大降低。这反映在热导率上,在含有 7.5%wt PF 颗粒的泡沫中,热导率的最大值达到 0.030 W/m∙K。回收料的引入略微改善了聚氨酯泡沫的热稳定性,但导致弯曲和压缩性能普遍下降。锥形量热仪测试表明,与纯聚氨酯泡沫相比,加入 PF 颗粒可将峰值热释放率降低 28%,从而提高隔热板的防火安全性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mechanical reprocessing of polyurethane and phenolic foams to increase the sustainability of thermal insulation materials

In this work polyurethane (PU) and phenolic foam (PF) panels were mechanically grinded and incorporated within an expanded polyurethane matrix utilized for thermal insulation, in order to reduce the use of virgin material and to promote a circular re-utilization of recycled materials. As observed by scanning electron microscopy, the formulations containing both recyclates showed a rather homogeneous cell structure, however their presence led to a strong reduction of the closed porosity. This reflected in a slight increase in the thermal conductivity, reaching maximum values of 0.030 W/m∙K in foams with 7.5%wt of PF particles. The introduction of the recyclates slightly improved the thermal stability of the PU foams and led to a general decrease in flexural and compression properties. Cone calorimetry tests demonstrated that the inclusion of PF particles reduced the peak heat release rate up to 28 % compared to neat PU foam, enhancing the fire safety of the insulating panels.

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来源期刊
Polymer Testing
Polymer Testing 工程技术-材料科学:表征与测试
CiteScore
10.70
自引率
5.90%
发文量
328
审稿时长
44 days
期刊介绍: Polymer Testing focuses on the testing, analysis and characterization of polymer materials, including both synthetic and natural or biobased polymers. Novel testing methods and the testing of novel polymeric materials in bulk, solution and dispersion is covered. In addition, we welcome the submission of the testing of polymeric materials for a wide range of applications and industrial products as well as nanoscale characterization. The scope includes but is not limited to the following main topics: Novel testing methods and Chemical analysis • mechanical, thermal, electrical, chemical, imaging, spectroscopy, scattering and rheology Physical properties and behaviour of novel polymer systems • nanoscale properties, morphology, transport properties Degradation and recycling of polymeric materials when combined with novel testing or characterization methods • degradation, biodegradation, ageing and fire retardancy Modelling and Simulation work will be only considered when it is linked to new or previously published experimental results.
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