Eco-Friendly of Sound-Absorbing Material Based on Polyurethane-Urea with Natural Fiber Waste

IF 0.4 Q4 NANOSCIENCE & NANOTECHNOLOGY
Mohammad Masykuri, Herlina Nofitasari, Romy Dyah Rahmawati
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Abstract

Noise has a wide impact on human health and non-health. One of the sound-absorbing materials commonly used in the community is polyurethane-urea foam. However, public concerns about the environment because the availability of petroleum as a raw material for polyurethane-urea foam synthesis is limited, and the waste pollutes the environment, posing a new challenge to be researched. For this reason, this study aims to develop polyurethane-urea foam with a mixture of natural fiber waste as an eco-friendly alternative to sound-absorbing materials. The raw materials used were natural fiber waste (rice straw waste and plywood industry sawdust waste) and chemicals (PEG, MDI, EDA, MAH), with a waste composition of 5% (w/w). The synthesis method employed was a one-shot method. The synthesized foam was characterized by FTIR, camera microscope, SEM, TGA and acoustic tests. The results uncovered that the sample had peaks in the absorption of the functional groups NH, OH, Urethane, Aromatic, and Amide. The morphological structure of the foam consisted of an open cell and a closed cell. Its thermal resistance was above 125°C. In addition, the foam with the highest sound-absorbing ability was polyurethane-urea foam/rice straw waste at 0.83 at a frequency of 4312 Hz.
天然废纤维聚氨酯-尿素吸声材料的生态友好型研究
噪声对人体健康和非健康都有广泛的影响。社区中常用的吸声材料之一是聚氨酯-尿素泡沫。然而,由于石油作为合成聚氨酯-尿素泡沫的原料的可用性有限,并且其废物污染环境,公众对环境的关注提出了新的挑战。因此,本研究旨在利用天然纤维废物的混合物开发聚氨酯-尿素泡沫,作为吸声材料的环保替代品。原料为天然纤维废料(稻秆废料和胶合板工业木屑废料)和化学品(PEG、MDI、EDA、MAH),废料组成为5% (w/w)。所采用的合成方法是一次合成法。通过红外光谱(FTIR)、相机显微镜(camera microscope)、扫描电镜(SEM)、热重分析仪(TGA)和声学测试对合成泡沫进行了表征。结果表明,样品在NH、OH、Urethane、Aromatic和Amide等官能团的吸收上有峰。泡沫的形态结构由一个开孔和一个闭孔组成。耐热性125℃以上。此外,在4312 Hz频率下,聚氨酯-尿素泡沫/稻草垃圾的吸声能力为0.83,吸声能力最强。
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来源期刊
Nano Hybrids and Composites
Nano Hybrids and Composites NANOSCIENCE & NANOTECHNOLOGY-
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