A gradient flame retardant strategy to improve the overall performance of polylactic acid/fiber composites

IF 4.8 2区 材料科学 Q2 MATERIALS SCIENCE, COMPOSITES
Ran Zheng, Yajun Chen, Tian Ye, Fenghao Hao, Zimeng Kong, Lijun Qian
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Abstract

To enhance the flame retardant property of fiber‐reinforced polymer composites without adding more flame retardants, we prepared film stacking composites by maintaining a total flame retardant content of 20% and applying a gradient flame retardant strategy. The gradient composites have been designated as 3113FRPLA/F and 1331FRPLA/F, respectively. 3113FRPLA/F is characterized by an augmented concentration of fire‐resistant additives in the surface layer, while 1331FRPLA/F features a reduced content. 20%FRPLA/F is prepared with a homogeneously distributed flame retardant composition. Results derived from LOI test and cone calorimeter test unequivocally demonstrate that 3113FRPLA/F outperforms both 1331FRPLA/F and 20%FRPLA/F in improving flame retardancy. The LOI value of 3113FRPLA/F is 36.1%, exceeding that of 20%FRPLA/F and there is also a reduction in the pk‐HRR compared with 20%FRPLA/F. It is of interest to note that 3113FRPLA/F exhibits the most effective heat insulation properties while 20%FRPLA/F has the worst, which is reflected by the infrared thermal imaging results. It bears mention that the impact strength and tensile strength of 3113FRPLA/F surpasses that of 20%FRPLA/F. In summary, 3113FRPLA/F, characterized by its increased surface concentration of flame retardants, demonstrates the most superior overall performance.Highlights The characteristics of PLA/fiber composites using a gradient strategy were compared. The LOI value of 3113FRPLA/F is 36.1%, exceeding that of 20%FRPLA/F. 3113FRPLA/F has the best heat insulation effect while 20%FRPLA/F has the worst. The impact strength and tensile strength of 3113FRPLA/F surpasses 20%FRPLA/F. Improving the surface flame retardant concentration increases the overall property.

Abstract Image

提高聚乳酸/纤维复合材料整体性能的梯度阻燃策略
为了在不添加更多阻燃剂的情况下提高纤维增强聚合物复合材料的阻燃性能,我们在保持总阻燃剂含量为 20% 的基础上,采用梯度阻燃策略制备了薄膜叠层复合材料。梯度复合材料分别命名为 3113FRPLA/F 和 1331FRPLA/F。3113FRPLA/F 的特点是表层的阻燃添加剂浓度增加,而 1331FRPLA/F 的特点是含量减少。20%FRPLA/F 的阻燃剂成分分布均匀。LOI 测试和锥形量热计测试的结果明确表明,3113FRPLA/F 在提高阻燃性方面优于 1331FRPLA/F 和 20%FRPLA/F。与 20%FRPLA/F 相比,3113FRPLA/F 的 LOI 值为 36.1%,超过了 20%FRPLA/F,pk-HRR 也有所降低。值得注意的是,3113FRPLA/F 具有最有效的隔热性能,而 20%FRPLA/F 的隔热性能最差,红外热成像结果也反映了这一点。值得一提的是,3113FRPLA/F 的冲击强度和拉伸强度都超过了 20%FRPLA/F。总之,3113FRPLA/F 的特点是增加了阻燃剂的表面浓度,整体性能最为优越。 亮点 采用梯度策略比较了聚乳酸/纤维复合材料的特性。3113FRPLA/F 的 LOI 值为 36.1%,超过了 20%FRPLA/F 的 LOI 值。3113FRPLA/F的隔热效果最好,而20%FRPLA/F的隔热效果最差。3113FRPLA/F 的冲击强度和拉伸强度都超过了 20%FRPLA/F。提高表面阻燃剂的浓度可增加整体性能。
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来源期刊
Polymer Composites
Polymer Composites 工程技术-材料科学:复合
CiteScore
7.50
自引率
32.70%
发文量
673
审稿时长
3.1 months
期刊介绍: Polymer Composites is the engineering and scientific journal serving the fields of reinforced plastics and polymer composites including research, production, processing, and applications. PC brings you the details of developments in this rapidly expanding area of technology long before they are commercial realities.
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