Natural Rubber/High Cis Butadiene Rubber-Filler Interactions And Rheological Properties In Rubber Airbag Compounding Formulation

Jurnal Inovasi dan Teknologi Material Pub Date : 2019-06-03 DOI:10.29122/JITM.V1I1.3579

A. Hidayat, D. K. Arti, Lies Agustine, Mahendra Aggaravidya

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引用次数: 1

Abstract

The rheological properties of rubber compound in general application and especially rubber airbag compounding is very important to predict the mechanical properties of rubber products, as well as useful for obtaining optimum formulations in the research and development of a product. The viscoelastic properties of the rubber compound are strongly influenced by the type of rubber and the filler used. The purpose of this research is to investigate the rheological properties of rubber airbag compounding using natural rubber (NR) and high cis butadiene rubber (BR) materials with various compositions of carbon black N220 filler. The mixing of NR and BR with 90/10 phr ratio was performed in a kneader, with carbon black N220 filler variation: 35, 45, 50 phr, named as BD1, BD2 and BD3, respectively. Rheology and viscosity properties were tested using Rubber Process Analyser (RPA) 2000 Alpha Technology. The test was performed with strain sweep at 70 C and comparing 1% strain and 10% strain to indicate dispersion and homogenity. Frequency sweep was performed at 100 C at 6 cpm and 7% strain.Â High strain sweep was also done as well as strain sweep after cure (ASTM D6601) which material were cured at 1800 C and strain sweep was applied at 1%, 2%, 5%, 10% and 20% to determine the mechanical properties of compound. The result showed that 35 phr of carbon black N220 (BD1) was the optimum formulation since compounds BD3 and BD2 have higher elastic torque (Sâ€™) peaks and may be harder to process as a result. The results for Tan (Delta) from all compounds in the high strain sweep verify that compounds BD3 and BD2 have lower Tan(Delta) values and therefore will probably have more difficulty in processing. The highest peak of modulus values at low strain indicates the carbon black with the highest reinforcement or the worst dispersion. BD3 and BD2 have high peak modulus value which is show the worse dispersion compared to BD1. Keywords: rheology, rubber airbag, filler, RPA

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天然橡胶/高顺式丁二烯橡胶-填料在橡胶安全气囊复合配方中的相互作用及流变性能

一般应用橡胶胶料，特别是橡胶安全气囊胶料的流变特性对预测橡胶制品的力学性能，以及在产品研发中获得最佳配方具有十分重要的意义。橡胶胶料的粘弹性受橡胶种类和填料的影响很大。本研究的目的是研究天然橡胶(NR)和高顺式丁二烯橡胶(BR)材料与不同成分的碳黑N220填料复合橡胶安全气囊的流变性能。在混炼机中以90/10的比例混合NR和BR，炭黑N220填料分别为35、45、50 phr，分别命名为BD1、BD2和BD3。用橡胶过程分析仪(RPA) 2000 Alpha技术测试了流变学和粘度特性。在70℃下进行菌株扫描，并将1%菌株和10%菌株进行比较，以表明分散和均匀性。频率扫描在100℃，6 cpm和7%的应变下进行。Â还进行了高应变扫描以及固化后的应变扫描(ASTM D6601)，其中材料在1800℃下固化，并施加1%，2%，5%，10%和20%的应变扫描以确定化合物的机械性能。结果表明，35 phr的炭黑N220 (BD1)是最佳配方，因为化合物BD3和BD2具有更高的弹性扭矩(sz -™)峰值，因此可能更难加工。高应变扫描中所有化合物的Tan(Delta)结果证实，化合物BD3和BD2具有较低的Tan(Delta)值，因此可能在处理中有更大的困难。低应变模量峰值表明炭黑的增强强度最高或分散性最差。BD3和BD2具有较高的峰值模量值，其色散较BD1差。关键词:流变学，橡胶气囊，填料，RPA

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Jurnal Inovasi dan Teknologi Material

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