Inhibiting heterocoagulation between microcrystalline graphite and quartz by pH modification and sodium hexametaphosphate

Long Liang; Tuantuan Zhang; Yaoli Peng; Guangyuan Xie

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Inhibiting heterocoagulation between microcrystalline graphite and quartz by pH modification and sodium hexametaphosphate

机译：通过pH改性和六偏磷酸钠抑制微晶石墨和石英之间的杂橡胶

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摘要

This paper investigates the heterocoagulation between microcrystalline graphite and quartz particles using the in-situ particle size distribution and zeta potential distribution measurements. It was found that the heterocoagulation was significant at acidic pH but negligible at alkaline pH. Additionally, the heterocoagulation was eliminated by the addition of sodium hexametaphosphate (SHMP). The heterocoagulation mechanism was accounted for by the interparticle force analysis based on the Deyaguin-Landau-Verwey-Overbeek theory. The separation efficiency of the mixture of graphite and quartz was improved when pH was modified to alkaline or sodium hexametaphosphate was added due to the inhibition of heterocoagulation.

机译：本文研究了使用原位粒度分布和Zeta电位分布测量的微晶石墨和石英粒子之间的杂血凝血。发现杂橡胶在酸性pH下显着，但在碱性pH下可忽略不计。另外，通过加入六偏磷酸钠（SHMP）消除杂橡胶。基于Deyaguin-Landau-Verwey-verwey-verwey-yembeek理论的颗粒体力分析，杂涂机制被占。当由于杂血凝固而加入pH加入pH时，改善石墨和石英混合物的分离效率。

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来源
《Colloids and Surfaces, A. Physicochemical and Engineering Aspects》 |2018年第2018期|共6页
作者
Long Liang; Tuantuan Zhang; Yaoli Peng; Guangyuan Xie;
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作者单位

Key Laboratory of Coal Processing and Ef?cient Utilization of Ministry of Education School of Chemical Engineering and Technology China University of Mining and Technology;

Key Laboratory of Coal Processing and Ef?cient Utilization of Ministry of Education School of Chemical Engineering and Technology China University of Mining and Technology;

Key Laboratory of Coal Processing and Ef?cient Utilization of Ministry of Education School of Chemical Engineering and Technology China University of Mining and Technology;

Key Laboratory of Coal Processing and Ef?cient Utilization of Ministry of Education School of Chemical Engineering and Technology China University of Mining and Technology;

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原文格式 PDF
正文语种 eng
中图分类胶体化学（分散体系的物理化学）;
关键词
Heterocoagulation; Graphite; Quartz; Particle size distribution; Zeta potential distribution;

机译：杂血清;石墨;石英;粒度分布;Zeta电位分布;

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专利

1. Inhibiting heterocoagulation between microcrystalline graphite and quartz by pH modification and sodium hexametaphosphate [J] . Long Liang, Tuantuan Zhang, Yaoli Peng, Colloids and Surfaces, A. Physicochemical and Engineering Aspects . 2018,第期

机译：通过pH改性和六偏磷酸钠抑制微晶石墨和石英之间的杂橡胶
2. Microwave irradiation assisted sodium hexametaphosphate modification on the alkali-activated blast furnace slag for enhancing immobilization of strontium [J] . Huang Tao, Song Dongping, Yin Li-Xin, Chemosphere . 2020,第Feba期

机译：微波辐射辅助六偏磷酸钠改性碱活化的高炉渣，用于增强锶的固定
3. Synthesis of Iron, Cobalt, Nickel, and Copper Hexacyanoferrates Nanoparticles Stabilized with Sodium Hexametaphosphate, and Their Use for Modification of LangmuirBlodgett Films [J] . Stepashkin N. A., Chernenko M. K., Kolonitskii P. D., Russian Journal of General Chemistry . 2019,第3期

机译：用六偏磷酸钠稳定铁，钴，镍和铜六氰基甲醛的合成及其用于改性Langmuirblodgett薄膜的用途
4. Optimization of the contents of hollow glass microsphere and sodium hexametaphosphate for glass fiber vacuum insulation panel [C] . C D Li, Z F Chen, J M Zhou Global Conference on Polymer and Composite Materials . 2016

机译：玻璃纤维真空绝缘板中空玻璃微球和六偏磷酸钠含量的优化
5. Modification of the surface chemistry of graphite nanoplatelets and the effect on graphite nanocomposites. [D] . Walden, Douglas Harrison. 2003

机译：石墨纳米片的表面化学修饰及其对石墨纳米复合材料的影响。
6. Effect of Sodium Hexametaphosphate and Trisodium Phosphate on Dispersion of Polycarboxylate Superplasticizer [O] . Yan Zhang, Huaqing Liu, Jialong Liu, 2019

机译：六偏磷酸钠和磷酸三钠对聚羧酸类高效减水剂分散性的影响
7. Recovery of Microcrystalline Graphite from Quartz Using Magnetic Seeding [O] . Pengfei Hu, Long Liang, Yaoli Peng, 2019

机译：使用磁性接种从石英中恢复微晶石墨
8. Sodium Hexametaphosphate from China. Investigation No. 731-TA-1110 (Review). [R] . 2013

机译：来自中国的六偏磷酸钠。第731-Ta-1110号调查（审查）。

Inhibiting heterocoagulation between microcrystalline graphite and quartz by pH modification and sodium hexametaphosphate

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