磁性纸浆纤维悬浮液的流变行为

Jorge H. Sánchez, Xiomara Pineda, German C. Quintana, A. Herrera
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摘要

本文主要研究了外加磁场和无外加磁场条件下磁性浆料悬浮液的流变性。以漂白桉树纤维和纳米钴铁氧体(CoFe2O4)为原料,采用管腔加载法制备磁性纤维。考察了质量浓度、温度、磁性纤维浓度和磁场强度对悬浮液屈服应力和表观粘度的影响。在没有施加磁场的情况下,发现屈服应力与稠度以及悬浮中存在的磁性纤维的百分比有关。在流动试验中,所有悬浮液都表现出剪切减薄的行为,表明粘度只受悬浮液稠度的影响。另一方面,磁流变测量表明外加磁场对悬浮液的粘度有负影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rheological behavior of magnetic pulp fiber suspensions
This paper is focused on the rheology of magnetic pulp suspensions in absence and presence of an external magnetic field. Magnetic fibers were prepared by the lumen loading method using bleached eucalyptus fibers and cobalt ferrite (CoFe2O4) nanoparticles. The effect of mass consistency, temperature, concentration of magnetic fibers, and magnetic field strength on yield stress and apparent viscosity of the suspensions were investigated. In the absence of an applied field, a dependence of yield stress with consistency, as well as with the percentage of magnetic fibers present in the suspension, was found. In flow tests, all the suspensions exhibited shear-thinning behavior, showing that the viscosity is only affected by the consistency of the suspension. On the other hand, magnetorheological measurements show a negative effect of the applied magnetic field on the viscosity of the suspension.
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