Impact of zeta potential of early cement hydration phases on superplasticizer adsorption

Johann Plank; Christian Hirsch

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Impact of zeta potential of early cement hydration phases on superplasticizer adsorption

机译：水泥水化早期的ζ电势对高效减水剂吸附的影响

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The zeta potential of early hydration products of cement was found to be a key factor for superplasticizer adsorption. A highly positive zeta potential results in a strong superplasticizer adsorption whereas a negative zeta potential does not allow adsorption. Synthetic ettringite precipitated from solution shows a highly positive zeta potential, hence it adsorbs great amounts of negatively charged superplasticizer. Monosulfate (AF_m) has a less positive zeta potential. Therefore, it adsorbs smaller amounts of superplasticizers. For syngenite, portlandite and gypsum, the zeta potential is around zero or negative. These phases do not adsorb superplasticizers. Consequently, a hydrating cement grain is best represented by a mosaic structure, with superplasticizer molecules mainly adsorbed on ettringite and some on monosulfate and C-S-H nucleated at surface.

机译：水泥的早期水合产物的ζ电位被发现是高效减水剂吸附的关键因素。高度正的zeta电位会导致强高效减水剂吸附，而负的zeta电位则不允许吸附。从溶液中沉淀出来的合成钙矾石显示出很高的正ζ电势，因此它吸附了大量带负电荷的高效减水剂。单硫酸盐（AF_m）的zeta电位较小。因此，它吸收较少量的高效减水剂。对于同沸石，波特兰石和石膏，ζ电位约为零或负。这些相不吸附高效减水剂。因此，水合水泥颗粒最好以镶嵌结构表示，高效减水剂分子主要吸附在钙矾石上，一些吸附在单硫酸盐上，C-S-H表面成核。

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《Cement and Concrete Research》 |2007年第4期|共6页
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Johann Plank; Christian Hirsch;
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正文语种 eng
中图分类水泥工业;
关键词
Adsorption; Admixture; Ettringite; Monosulfate; Zeta potential;

机译：吸附;掺合物;钙矾石;单硫酸盐;ζ电位;

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1. Impact of zeta potential of early cement hydration phases on superplasticizer adsorption [J] . Johann Plank, Christian Hirsch Cement and Concrete Research . 2007,第4期

机译：水泥水化早期的ζ电势对高效减水剂吸附的影响
2. Correlations of the dispersing capability of NSF and PCE types of superplasticizer and their impacts on cement hydration with the adsorption in fresh cement pastes [J] . Zhang Yanrong, Kong Xiangming Cement and Concrete Research . 2015,第Null期

机译：NSF和PCE型高效减水剂的分散能力及其对水泥水化和新鲜水泥浆中吸附的影响
3. Interaction of cement model systems with superplasticizers investigated by atomic force microscopy, zeta potential, and adsorption measurements [J] . Ferrari L., Kaufmann J., Winnefeld F., Journal of Colloid and Interface Science . 2010,第1期

机译：通过原子力显微镜，ζ电位和吸附测量研究水泥模型系统与高效减水剂的相互作用
4. Effect of Pore Solution Composition on Zeta Potential and Superplasticizer Adsorption [C] . Dirk Lowke, Christoph Gehlen International Conference on Superplasticizers and Other Chemical Admixtures in Concrete . 2016

机译：孔溶液组合物对Zeta电位和超塑性剂吸附的影响
5. Compatibility between cements and superplasticizers in high-performance concrete: Influence of alkali content in cement and of the molecular weight of PNS on the properties of cement pastes and concretes. [D] . Kim, Byung-Gi. 2000

机译：高性能混凝土中水泥与高效减水剂的相容性：水泥中碱含量和PNS分子量对水泥浆和混凝土性能的影响。
6. Different Effects of NSF and PCE Superplasticizer on Adsorption Dynamic Yield Stress and Thixotropy of Cement Pastes [O] . Ye Qian, Geert De Schutter 2018

机译：NSF和PCE高效减水剂对水泥浆的吸附动态屈服应力和触变性的不同影响
7. Adsorption of Superplasticizers on Model Powders: Temperature dependance, effect on Zeta Potential and Role of Chemical Structure [O] . Flatt R. J., Houst Y. F., Bowen P., 1997

机译：高效减水剂在模型粉末上的吸附：温度依赖性，对ζ电势的影响以及化学结构的作用
8. Influence of Superplasticizers on the Early Hydration of Portland Cement and Cement Compounds [R] . Duston, C. J. , Young, J. F. 1982

机译：高效减水剂对硅酸盐水泥和水泥基材早期水化的影响

Impact of zeta potential of early cement hydration phases on superplasticizer adsorption

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