Mechanical, thermal, and sorption behaviours of polyurethane rich footwear waste-clay reinforced natural rubber

IF 1.2 4区化学 Q4 POLYMER SCIENCE

Journal of Rubber Research Pub Date : 2024-09-23 DOI:10.1007/s42464-024-00281-3

P. Bashpa, K. Bijudas, Tania Francis

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引用次数: 0

Abstract

Reusing industrial wastes is one of the cutting-edge tactics used to counteract solid waste disposal for environmental protection. The rigid polyurethane waste (PW) produced while manufacturing shoe soles in the footwear industry contributes to major environmental problems due to its uncontrolled landfill. In the current work, PW and clay were used as fillers in natural rubber (NR) and the fabricated compound’s mechanical, thermal, and sorption properties were looked at. Various analytical techniques were employed to characterise the NR-PW-clay compounds produced by the two-roll mill mixing process. In contrast to NR, the tensile strength and tear resistance of NR compound with 5 phr (parts per hundred rubber) PW and 10 phr clay was improved by 20% and 7%, respectively, and abrasion loss was significantly reduced. The mechanical characteristics of the compounds showed a decreasing trend beyond 10 phr clay due to the PW and clay particle’s aggregation. The thermal stability of NR-PW-clay compounds was slightly increased upon adding clay, as demonstrated by thermogravimetric analysis (TGA). As clay loading increased, the crosslink density and swelling index measurements revealed improved solvent absorption resistance. The fabricated compounds have the potential to provide high-performance, inexpensive NR compounds for a variety of industrial applications.

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富含聚氨酯的鞋类废料--粘土增强天然橡胶的机械、热和吸附行为

工业废物的再利用是为保护环境而采取的固体废物处理对策中最先进的策略之一。制鞋业在制造鞋底时产生的硬质聚氨酯废料（PW），因其无节制的填埋而造成了严重的环境问题。在目前的研究中，PW 和粘土被用作天然橡胶（NR）的填料，并对制造出的化合物的机械、热和吸附特性进行了研究。我们采用了各种分析技术来确定通过双辊碾磨混合工艺生产的天然橡胶-铺路石-粘土化合物的特性。与 NR 相比，含有 5 phr（百份比橡胶）PW 和 10 phr 粘土的 NR 复合物的拉伸强度和抗撕裂性分别提高了 20% 和 7%，磨损损失也显著降低。由于 PW 和粘土颗粒的聚集，当粘土含量超过 10 phr 时，复合物的机械性能呈下降趋势。热重分析（TGA）表明，添加粘土后，NR-PW-粘土化合物的热稳定性略有提高。随着粘土添加量的增加，交联密度和溶胀指数测量结果表明，该化合物的耐溶剂吸收性得到了改善。所制备的化合物有望为各种工业应用提供高性能、廉价的 NR 化合物。

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来源期刊

Journal of Rubber Research 化学-高分子科学

自引率

15.40%

发文量

审稿时长

3 months

期刊介绍： The Journal of Rubber Research is devoted to both natural and synthetic rubbers, as well as to related disciplines. The scope of the journal encompasses all aspects of rubber from the core disciplines of biology, physics and chemistry, as well as economics. As a specialised field, rubber science includes within its niche a vast potential of innovative and value-added research areas yet to be explored. This peer reviewed publication focuses on the results of active experimental research and authoritative reviews on all aspects of rubber science. The Journal of Rubber Research welcomes research on: the upstream, including crop management, crop improvement and protection, and biotechnology; the midstream, including processing and effluent management; the downstream, including rubber engineering and product design, advanced rubber technology, latex science and technology, and chemistry and materials exploratory; economics, including the economics of rubber production, consumption, and market analysis. The Journal of Rubber Research serves to build a collective knowledge base while communicating information and validating the quality of research within the discipline, and bringing together work from experts in rubber science and related disciplines. Scientists in both academia and industry involved in researching and working with all aspects of rubber will find this journal to be both source of information and a gateway for their own publications.