Degree of MWCNT suspension dispersity and its influence on rheology of cement pastes

The proceedings of the 13th international conference "Modern Building Materials, Structures and Techniques" (MBMST 2019) Pub Date : 2019-12-03 DOI:10.3846/mbmst.2019.022

G. Skripkiūnas, E. Karpova, J. Bendoraitiene, I. Barauskas, R. Drochytka

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Abstract

Modification of cement pastes by MWCNT (multi-walled carbon nanotubes) suspension enables to manage by their rheological properties due to the nanometer size of MWCNT. Dispersity degree of MWCNT suspension may be determined by the number of factors such as type and intensity of homogenization equipment, duration of homogenization and some other. The aim of present research consists in the establishment of optimal methodology of MWCNT suspension homogenization and investigation of dependence between dispersity degree of MWCNT suspension and rheological properties of cement pastes with that suspension. Two types of homogenization methods of MWCNT were tested such as ultrasonication and homogenization based on rotor-stator principle. The ultrasonication treatment about 6 min was established as optimal homogenization technique in the course of the current research. The yield stress and plastic viscosity of cement paste modified by MWCNT suspension increased in comparison with cement paste modified by polycarboxylate ether plasticizer (PCE) in 5 and 30 min after cement pastes mixing.Time of ultrasonication of MWCNT suspension more than 6 min did not have the influence on rheological behaviour of cement pastes.Addition of MWCNT decreased the volume coefficient of water bleeding of cement paste with PCE by 18%.

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MWCNT悬浮分散度及其对水泥浆体流变性的影响

采用多壁碳纳米管悬浮液对水泥浆进行改性，可以控制其由于纳米尺寸而产生的流变性能。MWCNT悬浮液的分散度取决于均质设备的种类和强度、均质时间等因素的数量。本研究的目的是建立MWCNT悬浮液均匀化的最佳方法，并研究MWCNT悬浮液的分散度与水泥浆体流变性能的关系。对mwcnts的两种均匀化方法——超声均匀化和基于转子-定子原理的均匀化进行了试验。本研究确定超声处理时间为6 min为最佳均质工艺。与聚羧酸醚增塑剂(PCE)改性水泥浆相比，MWCNT悬浮液改性水泥浆在搅拌后5 min和30 min的屈服应力和塑性粘度均有所增加。超声处理MWCNT悬浮液的时间大于6 min，对水泥浆体的流变性能没有影响。MWCNT的掺入使PCE水泥浆体的体积渗水系数降低了18%。

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The proceedings of the 13th international conference "Modern Building Materials, Structures and Techniques" (MBMST 2019)

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