Study on Havea brasiliensis (rubber seed) oil for development of a biodegradable lubricant

21ST CENTURY: CHEMISTRY TO LIFE Pub Date : 2019-08-07 DOI:10.1063/1.5120222

P. Aniyan, Nithin V. Edasserry, Reuben John Eype, A. Aravind

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Abstract

In order to reduce the effect of environmental degradation due to the use of mineral oils and fossil fuels, a substituent bio-oil is used. Here we use non edible plant oil as a replacement for the mineral oil, which averts any fuel-food crisis. Physical properties of the oil was determined first hand. The present study deals with the thermal and rheological properties of Rubber Seed Oil (RSO). Rheological property being one of the important factor of a lubricant, the density and viscosity of the oil was determined first hand. Thermogravimetric analysis was done and the results show that RSO was stable up to 250°C. Additives including Polypropylene (PP) and low-density polyethylene (LDPE) were added in different percentages by weight for improving the Rheological properties.The original version of this article supplied to AIP Publishing excluded the acknowledgement section. The missing acknowledgment can be found below: “This research was supported by CERD under the funding scheme KTU/RESEARCH 3/1430/2016. The authors would also like to extend profound gratitude to STIC, CUSAT, CEPC-kollam, NITC for the help in carrying out the experiments.”

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橡胶籽油开发可生物降解润滑剂的研究

为了减少因使用矿物油和化石燃料而导致的环境退化的影响，使用了替代生物油。在这里，我们使用非食用植物油作为矿物油的替代品，这避免了任何燃料-粮食危机。这种油的物理性质是直接测定的。本文研究了橡胶籽油(RSO)的热流变特性。润滑油的流变性是影响润滑剂性能的重要因素之一，其密度和粘度是直接测定的。热重分析结果表明，RSO在250℃下保持稳定。通过添加不同重量百分比的聚丙烯(PP)和低密度聚乙烯(LDPE)等添加剂来改善材料的流变性能。提供给AIP Publishing的这篇文章的原始版本排除了确认部分。缺失的确认信息如下:“本研究由消除种族歧视委员会根据KTU/ research 3/1430/2016资助计划资助。作者也要对STIC、CUSAT、CEPC-kollam、NITC在实验中提供的帮助表示深深的感谢。”

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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21ST CENTURY: CHEMISTRY TO LIFE

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