Acoustic behaviour of textile structures

IF 2.1 Q2 MATERIALS SCIENCE, TEXTILES
P. Paul, R. Mishra, B. Behera
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引用次数: 6

Abstract

Abstract Recent history has witnessed substantial growth in public concern related to noise pollution due to industrial progress. As much as this situation imposes a burden on textile producers, it also opens a new battlefield against conventional acoustic materials, where textiles can prevail. Conventional acoustic materials are in the line of fire due to their adverse effects on the ecosystem as well as on human health. This situation can offer a business advantage to textile producers, provided that the damage inflicted on the environment throughout the whole life cycle of the textile product is minimised and the functional properties are improved. A lot of research has been done about textiles for controlling noise pollution in the last forty years; there is still a lack of a systematic and holistic approach to those investigations. The challenge lies in attaining desired sound levels while simultaneously maintaining or enhancing the audio environment. A scientific approach to develop textile based acoustic materials/structures is deeply desired. Desirable features of acoustic materials in terms of ecology and economy must be explored, such as recyclability, light weight, and cost effectiveness. Design is a challenging task because varying material types together with acoustic textiles can be used simultaneously in different shapes, thicknesses, sequences, perforation, and groove properties. As the sound absorbers are composed of multiple layers of different materials, accurate modelling of the acoustical behaviour is often difficult. We also need systematic findings in acoustic performance of unidirectional textile structures, woven two-dimensional structures, nonwoven structures and stacked structures. There are unexplored areas in the study of suitable three-dimensional woven structures, whether orthogonal, angle interlock or honeycomb structure, and evaluation of their acoustic performance. The combination and sequence of different textile structures need to be ascertained for achieving the required acoustic performance. The studies on 3D spacer fabrics for acoustic insulation are still in the initial phase and therefore the emphasis in all these studies is primarily to understand the role of the face and back layer’s density, air permeability through the spacer structure and thickness of the spacer fabric.
纺织结构的声学特性
近年来,由于工业进步,公众对噪音污染的关注大幅增加。这种情况给纺织品生产商带来负担的同时,也打开了一个与传统声学材料竞争的新战场,纺织品可以在这个战场上占上风。传统的声学材料由于其对生态系统和人类健康的不利影响而处于风口浪尖。这种情况可以为纺织品生产商提供商业优势,前提是在纺织品的整个生命周期中对环境造成的破坏降到最低,并改善其功能特性。近四十年来,人们对纺织品噪声污染的控制进行了大量的研究;对这些调查仍然缺乏系统和全面的方法。挑战在于在保持或增强音频环境的同时达到理想的声音水平。我们迫切需要一种科学的方法来开发基于纺织的声学材料/结构。声学材料在生态和经济方面的理想特性必须探索,如可回收性,重量轻,成本效益。设计是一项具有挑战性的任务,因为不同的材料类型以及声学纺织品可以同时以不同的形状、厚度、序列、穿孔和凹槽特性使用。由于吸声器由多层不同的材料组成,因此对其声学特性的精确建模往往是困难的。我们还需要系统地研究单向纺织结构、编织二维结构、非织造结构和堆叠结构的声学性能。正交结构、角互锁结构、蜂窝状结构等合适的三维编织结构及其声学性能评价的研究仍是有待探索的领域。为了达到所需的声学性能,需要确定不同织物结构的组合和顺序。关于三维隔声隔离织物的研究还处于起步阶段,因此这些研究的重点主要是了解隔声隔离织物的面、背层密度、隔声隔离结构透气性和隔声隔离织物厚度的作用。
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来源期刊
TEXTILE PROGRESS
TEXTILE PROGRESS MATERIALS SCIENCE, TEXTILES-
CiteScore
4.90
自引率
6.70%
发文量
1
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