Lignin dispersion in polybutadiene rubber (BR) with different mixing parameters

IF 1.1 4区 材料科学 Q4 MATERIALS SCIENCE, COMPOSITES
Jukka Koskinen, Noora Kemppainen, Essi Sarlin
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引用次数: 0

Abstract

There is a strong need to replace carbon black and silica as a reinforcing filler in rubber industry. Lignin is a promising option as a replacement, because of its wide availability, complex chemistry and sustainable source. Typically, the reinforcing effect of lignin is weak and one major cause is the poor dispersion of filler. In this study, typical dispersion parameters in mixing are tested in a systematic way to validate their effect on kraft lignin dispersion in polybutadiene rubber. Tested mixing variables are temperature, rotor speed, mixing time, fill ratio and shear forces. The effect of variables to dispersion are analyzed from electron microscopy images with an image analysis software. With this novel method exact number of particles and their properties could be calculated. Unlike for conventional fillers (carbon black and silica), the results show clearly that only the mixing temperature has an effect on lignin dispersion in rubber. With high mixing temperatures, dispersion and hence mechanical properties improved. The better dispersion is especially seen as decreasing number of large (>Ø 5 μm) particles. Other mixing variables did not have significant effect on dispersion and the number of large particles.
不同混合参数下木质素在聚丁二烯橡胶(BR)中的分散性
橡胶工业亟需替代炭黑和白炭黑作为补强填料。由于木质素来源广泛、化学性质复杂且来源可持续,因此是一种很有前景的替代品。通常情况下,木质素的补强效果较弱,其中一个主要原因是填料的分散性较差。在本研究中,对混合过程中的典型分散参数进行了系统测试,以验证它们对牛皮纸木质素在聚丁二烯橡胶中的分散效果的影响。测试的混合变量包括温度、转子速度、混合时间、填充率和剪切力。使用图像分析软件从电子显微镜图像分析变量对分散的影响。通过这种新方法,可以计算出颗粒的精确数量及其特性。与传统填料(炭黑和白炭黑)不同,研究结果清楚地表明,只有混炼温度会对木质素在橡胶中的分散产生影响。混炼温度越高,分散性越好,机械性能也随之提高。大颗粒(直径 5 μm)数量的减少尤其体现了分散性的改善。其他混合变量对分散性和大颗粒数量的影响不大。
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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.
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