优化浸渍胶乳产品中特种橡胶胶乳的应用

IF 1.2 4区化学 Q4 POLYMER SCIENCE

Journal of Rubber Research Pub Date : 2024-09-11 DOI:10.1007/s42464-024-00279-x

Dazylah Darji, Manroshan Singh, Jaswan Singh, Mohamad Akmal Abdul Rahim, Muhammad Syaarani Danya, Fatimah Rubaizah Mohd Rasdi

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引用次数: 0

摘要

成功制备了环氧化天然橡胶（ENR）浸胶乳膜。研究了硫含量、硫化温度和时间、浸出温度和时间、厚度、油性和耐化学性等参数的影响。通过改变 0.5 phr 至 2.0 phr 的硫含量，成功制备出 ENR 胶乳薄膜。硫化温度为 75 °C、硫化时间为 30 分钟时，拉伸性能优越。更长的浸出时间和更高的浸出温度表明 ENR 胶乳具有最佳的拉伸强度，可以浸出所有不需要的化学物质。ENR浸渍薄膜的厚度可通过选择适当浓度的胶乳 TSC 和凝固剂、不同的浸渍时间和前处理温度来改变。耐油性测定结果表明，ENR 在油中的吸油量大大低于天然橡胶（NR），与商用手套相当。此外，ENR 对酸性和碱性溶液也具有显著的耐化学性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Optimisation of specialty rubber latex application in dipped latex product

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Optimisation of specialty rubber latex application in dipped latex product

The preparation of epoxidised natural rubber (ENR) latex-dipped film was successfully carried out. The effects of several parameters, such as sulphur loading, vulcanisation temperature and time, leaching temperature and time, thickness, oil, and chemical resistance, were studied. ENR latex films were successfully prepared by varying the sulphur loading from 0.5 phr to 2.0 phr. Superior tensile properties were observed for the vulcanised temperature at 75 °C with vulcanisation at 30 min. A longer leaching time and higher leaching temperature demonstrated an optimal tensile strength for ENR latex to leach out all undesirable chemicals. The thickness of ENR-dipped film can be varied by selecting an appropriate concentration of latex TSC and coagulant, different dwelling times, and former temperatures. The determination of oil resistances showed that the oil uptake of ENRs in oils was substantially less than that of natural rubber (NR) and was comparable to commercial gloves. Aside from that, ENR demonstrated remarkable chemical resistance to acid and alkaline solutions.

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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.