Fire reaction of nanoclay-doped PA6 composites reinforced with continuous glass fibers and produced by commingling technique

M. Monti; S.A. Tsampas; S.P. Fernberg; P. Blomqvist; F. Cuttica; A. Fina; G. Camino

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Fire reaction of nanoclay-doped PA6 composites reinforced with continuous glass fibers and produced by commingling technique

机译：掺有连续玻璃纤维的掺纳米粘土PA6复合材料的着火反应

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In this paper, we report the development of a glass fiber commingled composite (GFCC) based on a nanoclay-doped polyamide 6 (PA6) and the evaluation of its fire reaction. The preparation of the composite comprised several steps. Firstly, the nanoday was dispersed in the PA6 matrix. Then, the produced compound was spun in filaments and commingled with continuous glass fibers. Finally, the laminate preform was consolidated. Reference samples based on the neat PA6 were produced as well. As a results, although it is well known that, in the presence of a relevant amount of continuous fibers, the behavior of the material is mainly driven by the fibers themselves (e.g. mechanical, thermal, conductive, and so on), the effect of the clay was interesting, especially in flammability test (UL94 vertical burning test), where the total burning time passes from 227 s to 146 s.

机译：在本文中，我们报道了一种基于纳米粘土掺杂的聚酰胺6（PA6）的玻璃纤维混合复合材料（GFCC）的开发及其火反应的评估。复合材料的制备包括几个步骤。首先，将纳诺日分散在PA6基质中。然后，将产生的化合物纺成细丝，并与连续的玻璃纤维混合。最后，层压预成型件被固结。还生产了基于纯净PA6的参考样品。结果，尽管众所周知，在存在一定数量的连续纤维的情况下，材料的性能主要由纤维本身（例如，机械的，热的，导电的等），纤维的作用来驱动。粘土很有趣，特别是在可燃性测试（UL94垂直燃烧测试）中，总燃烧时间从227 s变为146 s。

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来源
《Polymer Degradation and Stability》 |2015年第11期|1-10|共10页
作者
M. Monti; S.A. Tsampas; S.P. Fernberg; P. Blomqvist; F. Cuttica; A. Fina; G. Camino;
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作者单位

Proplast Consortium, Strada Comunale Savonesa 9, Rivalta Scrivia (AL), Italy;

Swerea SICOMP, PO Box 104, SE-431 22 Moelndal, Sweden;

Swerea SICOMP, PO Box 271, SE-941 26 Pitea, Sweden,Composite Centre Sweden, Lulea University of Technology, SE-971 87 Lulea, Sweden;

SP Technical Research Institute of Sweden, Boris, Sweden;

Dipartimento di Scienza Applicata e Tecnologia, Politecnico di Torino, sede di Alessandria, Italy;

Dipartimento di Scienza Applicata e Tecnologia, Politecnico di Torino, sede di Alessandria, Italy;

Proplast Consortium, Strada Comunale Savonesa 9, Rivalta Scrivia (AL), Italy,Dipartimento di Scienza Applicata e Tecnologia, Politecnico di Torino, sede di Alessandria, Italy;

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正文语种 eng
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关键词
Commingling; Nanocomposites; Fire behavior; Cone calorimeter; UL94; Thermoplastic composites;

机译：混合;纳米复合材料;着火行为;锥形量热仪UL94;热塑性复合材料;

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Fire reaction of nanoclay-doped PA6 composites reinforced with continuous glass fibers and produced by commingling technique

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