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A Strategy to Improving the Fire-Performance of Flax Fibre/Epoxy Skin-and Balsa Wood-Core Sandwich Composites without Degrading their Inherent Mechanical Properties

机译：一种改善亚麻纤维/环氧皮肤和BALSA木芯夹层复合材料的防火性能的策略，而不会降低其固有的机械性能

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Environmental sustainability in engineering is giving an impetus for the creation and development of new composite materials using bio-based resources. The use of natural fibre reinforcements in structural composites has attracted a lot of interest from researchers; however, these fibres aggravate an existing challenge with fibre/polymer composites when used in moderate to extreme thermal environments-they are flammable. This paper presents an innovative strategy to improving the fire performance of flax fibre-reinforced balsa wood-core sandwich composites without adversely altering their intrinsic mechanical properties. A thin glass fibre veil impregnated with fire retardant (ammonium polyphosphate) is bonded onto the sandwich composite surface intended for heat exposure. Cone calorimeter tests were conducted to assess the fire reaction properties of the composites with/without fire protection.

机译：工程中的环境可持续性正在推动使用基于生物资源的新复合材料的创建和开发的推动力。在结构复合材料中使用天然纤维增强材料吸引了研究人员的许多兴趣;然而，当使用中等至极端热环境时，这些纤维通过纤维/聚合物复合材料加剧了纤维/聚合物复合材料 - 它们是易燃的。本文提出了一种创新策略，可提高亚麻纤维增强的Balsa木芯夹层复合材料的氟糊纤维纤维砂芯夹层复合材料的火灾性能，而不会对其固有机械性能产生不利影响。将用阻燃剂（多磷酸铵）浸渍的薄玻璃纤维面纱粘合到用于热暴露的夹层复合表面上。进行锥形量热计测试以评估复合材料的火反应性能，无需防火。

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《Asian-Australasian Conference on Composite Materials》|2013年||共6页
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E. Kandare; P. Luangtriratana; B.K. Kandola;
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正文语种
中图分类复合材料;
关键词
Sandwich composites; Flea fibres; Epoxy; Balsa; Fire retardancy; Char-forming;

机译：夹层复合材料;跳蚤纤维;环氧树脂;Balsa;阻燃;炭形成;
入库时间 2022-08-20 22:22:32

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1. Fire reaction properties of flax/epoxy laminates and their balsa-core sandwich composites with or without fire protection [J] . Everson Kandare, Piyanuch Luangtriratana, Baljinder K. Kandola Composites . 2014,第jana期

机译：亚麻/环氧层压板及其轻木芯夹芯复合材料的防火性能
2. Flexural Mechanical Properties of Hybrid Epoxy Composites Reinforced with Nonwoven Made of Flax Fibres and Recycled Carbon Fibres [J] . Jens Bachmann, Martin Wiedemann, Peter Wierach Aerospace . 2018,第4期

机译：亚麻纤维和再生碳纤维无纺布增强的混杂环氧树脂复合材料的弯曲力学性能
3. Thermo-compression forming of flax fibre-reinforced polyamide 6 composites: influence of the fibre thermal degradation on mechanical properties [J] . Shaoxiong Liang, Hedi Nouri, Eric Lafranche Journal of Materials Science . 2015,第23期

机译：亚麻纤维增强聚酰胺6复合材料的热压成型：纤维热降解对机械性能的影响
4. A Strategy to Improving the Fire-Performance of Flax Fibre/Epoxy Skin-and Balsa Wood-Core Sandwich Composites without Degrading their Inherent Mechanical Properties [C] . E. Kandare, P. Luangtriratana, B.K. Kandola Asian-Australasian Conference on Composite Materials . 2013

机译：一种改善亚麻纤维/环氧皮肤和BALSA木芯夹层复合材料的防火性能的策略，而不会降低其固有的机械性能
5. The Effect of Particle Size and Functionalisation on Electro-Thermo-Mechanical Properties of Graphene-Enhanced Epoxy and Carbon Fibre Epoxy Nano-Composites [D] . Wang, Zixin. 2018

机译：石墨烯增强环氧树脂和碳纤维环氧纳米复合材料的粒度和官能化对电热 - 热学性能的影响
6. Effect of Stacking Sequence and Sodium Bicarbonate Treatment on Quasi-Static and Dynamic Mechanical Properties of Flax/Jute Epoxy-Based Composites [O] . Vincenzo Fiore, Luigi Calabrese 2019

机译：堆积顺序和碳酸氢钠处理对亚麻/黄麻环氧树脂基复合材料准静态和动态力学性能的影响
7. Variability of flax fibre morphology and mechanical properties in injection moulded short straw flax fibre-reinforced PP composites [O] . Soete Karen, Desplentere Frederik, Lomov Stepan, 2016

机译：注塑短秸秆亚麻纤维增强PP复合材料中亚麻纤维形态和力学性能的变化

A Strategy to Improving the Fire-Performance of Flax Fibre/Epoxy Skin-and Balsa Wood-Core Sandwich Composites without Degrading their Inherent Mechanical Properties

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