增塑型聚合物泡沫:生产、建模和应用

Ouassim Hamdi, D. Rodrigue
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引用次数: 4

摘要

增强型材料由于其负泊松比所产生的特殊性能而具有很高的潜力。近年来,研究人员开发了几种增塑型聚合物基材料。事实上,一些应用正在寻求轻质(生产和运输中消耗的材料更少),同时具有高机械性能(冲击吸收、刚性、强度、阻力等)。因此,密度和韧性/强度之间的平衡是非常重要的,特别是在军事,体育和运输应用中。因此,增氧材料(特别是泡沫材料)可以在限制材料重量的同时提供高冲击保护。本文综述了生长型聚合物泡沫的最新进展,重点介绍了生长型聚合物泡沫的制备方法和加工条件(取决于细胞结构的性质),制备参数对其最终性能的影响,以及它们的模型和潜在应用。
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Auxetic Polymer Foams: Production, Modeling and Applications
Auxetic materials have high potential due to their exceptional properties resulting from their negative Poisson ratio. Recently, several auxetic polymer-based materials have been developed. In fact, several applications are looking for a lightweight (less material consumed in production and transport) while having high mechanical performances (impact absorption, rigidity, strength, resistance, etc.). So, a balance between density and toughness/strength is of high importance, especially for military, sporting, and transport applications. So auxetic materials (especially foams) can provide high impact protection while limiting the material’s weight. This article presents a review of recent advances with a focus on auxetic polymers, with particular emphasis on the auxetic polymer foams in terms of their fabrication methods and processing conditions (depending on the nature of the cellular structure), the effect of the fabrication parameters on their final properties, as well as their models and potential applications.
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