Design and characterization of flame resistant blended nondrip PA6/Lenzing FR®/PBI fiber nonwoven fabrics

Lan Yao, Lantao Wu, Hao Wu, J. Koo, M. Krifa
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引用次数: 4

Abstract

Abstract In current thermal protective clothing systems, maximizing the personal protection performance against fire and heat is in great demand. Additionally, minimizing the manufacturing cost by using low-cost materials is also a critical factor. In previous studies [1–3], a new type of low-cost inherently flame resistant (FR) non-drip Polyamide 6 (PA6) nanocomposite fiber was developed. In this paper, this FR non-drip PA6 fiber was tested in blends with two commercially available inherently FR fibers to form FR nonwoven fabrics. Different formulations of varying blending ratios were processed into nonwoven fabrics. The fiber morphology was observed by Scanning Electron Microscopy (SEM). The fabric flammability and combustion properties were characterized using a Microscale Combustion Calorimeter (MCC), and a vertical flame tester, as well as Thermogravimetric Analysis (TGA). Tensile tests were conducted to characterize mechanical properties of these FR nonwoven fabrics. The water vapor permeability test was also performed to measure the wearability of the fabric. Results of several nonwoven blends were compared to find the one with optimum blend ratio which has the potential to be used as low-cost thermal protective fabric.
阻燃不滴PA6/Lenzing FR®/PBI纤维混纺无纺布的设计与性能
摘要在目前的热防护服系统中,最大限度地提高个人对火灾和热的防护性能是一个很大的需求。此外,通过使用低成本材料来降低制造成本也是一个关键因素。在以往的研究中[1-3],开发了一种新型的低成本固有阻燃(FR)不滴漏聚酰胺6 (PA6)纳米复合纤维。在本文中,这种FR不滴PA6纤维与两种市售的固有FR纤维共混,形成FR无纺布。将不同配比的配方加工成非织造布。用扫描电镜(SEM)观察纤维形态。采用微尺度燃烧量热仪(MCC)、垂直火焰测试仪和热重分析(TGA)对织物的可燃性和燃烧性能进行了表征。通过拉伸试验对这些FR非织造布的力学性能进行了表征。同时进行了透气性测试,测试了织物的耐磨性。对几种非织造织物的混纺结果进行了比较,找出了一种具有最佳混纺比的低成本热防护织物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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