Utilization of engineered silicate dispersion as a cost-effective cheapener and engineered carbonate dispersion as novel reinforcing additives for nitrile latex glove application

IF 1.1 4区 材料科学 Q4 MATERIALS SCIENCE, COMPOSITES Progress in Rubber Plastics and Recycling Technology Pub Date : 2023-09-29 DOI:10.1177/14777606231203850
Norfatirah Muhamad Sarih, Muhammad Afiq Misman, Simon Maher, Azura A Rashid
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Abstract

Utilization of silicate minerals fillers in latex offer dual function as a compatible filler and cheapener that economical way to reduce latex consumption. This research explores the effect of using Engineered Silicate Composite Dispersion (ESD 086) as fillers for nitrile latex-supported gloves, seeking to explore their properties while ensuring cost-effectiveness. The reinforcement effect of novel Engineered Carbonate Dispersion (ECD 011) for ESD 086 filled Carboxylated Nitrile Butadiene Rubber (XNBR/ESD 086) latex films has also been explored. XNBR latex films were compounded with three variants of ESD 086 at different loadings (in phr). From three variants of ESD 086 fillers, variant ESD 086A at 10 phr shows the highest tensile strength. As the ESD 086A filler loading increased up to 15 phr, the tensile strength decreased, indicating the ineffectiveness to be used at higher loading. The work was continued by exploring the use of novel ECD 011 to minimize the decrement effect. The 15 phr ESD 086 filled XNBR latex films (XNBR/ESD 086A-15) were subjected to a hybrid loading from 0 to 1.2 phr with 0.2 phr staggered increment together with the reduction of ECD 011:ZnO ratio in the XNBR latex compounds. Results show that at 0.6:0.6 phr of ECD 011:ZnO, the tensile strength of XNBR/ESD 086A-15 latex films increased and the elongation at break also improved. Using ESD 086A can reduce the usage of XNBR latex. Still, it can only be used up to 10 phr (optimum loading) and ECD 011 can maintain the physical properties and offer maximum cost-saving options for XNBR latex glove formulation at higher loading of ESD fillers. Overall, both engineered dispersions offer potential commercial benefits for the Nitrile gloves industry.
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工程硅酸盐分散体是一种经济高效的分散剂,工程碳酸盐分散体是一种新型增强剂,用于丁腈乳胶手套
利用硅酸盐矿物填料在橡胶提供双重职能作为一个兼容的填料和贬值,经济的方法减少橡胶消费。本研究探讨了用硅酸盐复合材料色散的影响(ESD 086)作为填充物腈latex-supported手套,试图探索它们的属性同时确保成本效益。新工程的加固效果碳酸盐色散(011年ECD) ESD 086了羧基丁晴橡胶(XNBR / ESD 086)乳胶电影也被探索。XNBR乳胶膜复合的三个变体ESD 086在不同载荷(phr)。从086年ESD的三种版本的填充物,变体ESD 086 10 phr显示抗拉强度最高。当ESD 086A填料载荷增加到15 phr时,抗拉强度下降,表明在更高载荷下使用无效。的工作是继续探索使用小说ECD 011年递减效应降到最低。phr ESD 086打满了XNBR乳胶电影(XNBR / ESD 086 15)受到混合装载从0到1.2 phr 0.2 phr一起交错增量减少儿童早期开发011:氧化锌比XNBR的橡胶化合物。结果表明,在0.6:0.6 phr ECD 011:氧化锌,XNBR的抗拉强度/ ESD 086 15乳胶电影增加,断裂伸长率也有所改善。使用ESD 086可以减少XNBR乳胶的使用。尽管如此,ECD 011最多只能使用10 phr(最佳负载),并且ECD 011可以保持XNBR乳胶手套配方的物理性能,并在更高负载的ESD填料下最大限度地节省成本。总的来说,这两种工程分散剂都为丁腈手套行业提供了潜在的商业利益。
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来源期刊
Progress in Rubber Plastics and Recycling Technology
Progress in Rubber Plastics and Recycling Technology MATERIALS SCIENCE, COMPOSITES-POLYMER SCIENCE
CiteScore
4.40
自引率
7.70%
发文量
18
审稿时长
>12 weeks
期刊介绍: The journal aims to bridge the gap between research and development and the practical and commercial applications of polymers in a wide range of uses. Current developments and likely future trends are reviewed across key areas of the polymer industry, together with existing and potential opportunities for the innovative use of plastic and rubber products.
期刊最新文献
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