水化硅酸钙

  • 网络Calcium Silicate Hydrate;CSH;c-s-h
水化硅酸钙水化硅酸钙
  1. 在碱溶液中,矿渣中离解出[SiO4]4-离子能与Ca2+离子形成水化硅酸钙凝胶,因此碱可作为矿渣胶凝材料的激发剂。

    Whereas in alkali solutions [ SiO4 ] 4 - and Ca2 + ions released from slag fine were combined to form C-S-H gel . Thus alkalis are commonly employed in the manufacture of slag fine cementing material as activators .

  2. 黄磷渣的水化反应产物存在水化硅酸钙,此外,磷石膏中的硫酸盐在激发黄磷渣活性中也起到了一定作用。

    The hydration product of yellow phosphorus slag includes C-S-H , in addition , the sulfate of the phosphogypsum also played a certain role in stimulating .

  3. 掺萘系高效减水剂水化硅酸钙的X射线光电子能谱研究

    Study on calcium silicate hydrates contained naphthalene-type organic complex molecule by X-ray photo electron spectroscopy

  4. 快速测定水化硅酸钙结晶度的XRD方法

    Rapid Quantitative Determination of Hydrated Calcium Silicates Crystal by XRD

  5. 水化硅酸钙对Cr(VI)的吸附作用论述了新型硅酸钙脱硫剂的成分筛选及其在沸腾炉内的变工况试验结果。

    The results of the component screening of several new kinds of calcium silicate desulphurizers and the experiment of them in a fluidized bed combustor under different process conditions are described .

  6. 此外,在碳化过程中红外吸收峰由表征水化硅酸钙的SiO键向硅胶的SiO键逐渐转变。

    The gradual shift of the IR absorbing peak of samples in the course of carbonation from one characterizing the Si & O bond in calcium silicate hydrate to the one in SiO_2 gel has also been studied .

  7. 结果发现硅灰能和氢氧化钙立即反应,生成类似于C-S-H(Ⅱ)的水化硅酸钙。

    It is found that silica fume reacts immediately with calcium hydroxide forming calcium silicate hydrates ( C-S-H ) similar to C-S-H (ⅱ) .

  8. 对形成的水化硅酸钙经三甲基硅烷化(TMs)反应,并用气相色谱(GLC)及凝胶渗透色谱(GPC)分离和测定TMS衍生物。

    Trimethylsilyl derivatives of calcium silicate hydrates formed in the mixture are separated by gas-liquid chromatography ( OLC ) and gel permeation chromatography ( GPC ) .

  9. 研究表明:由于土样对Ca(OH)2的消耗,可能导致固化土孔隙液中Ca(OH)2不饱和,进而影响了水化硅酸钙的生成量;

    The result shows that due to soil absorbing of Ca ( OH ) _2 , the concentration of Ca ( OH ) _2 in the pore solution may not reach to saturation , in turn the CSH gel generated by cement hydration may decrease ;

  10. X射线衍射分析表明高掺量CLS促进硬化水泥中生成钙矾石,抑制水化硅酸钙(CSH)的早期生成,但对CSH的后期生成无影响。

    X-ray diffraction analysis shows that CLS can promote the growth of ettringite and restrain the growth of CSH at early-age , while the long-term growth of CSH is not be affected .

  11. 结果表明:在实验条件下,Sr2+能取代水化硅酸钙凝胶中Ca2+而形成固溶体,并使CSH凝胶结构更趋无序;

    The results showed that Sr ~ ( 2 + ) can replace Ca ~ ( 2 + ) in calcium silicate hydrate ( CSH ) gel to form solid solution and make the structure of CSH gel more disordered under the experimental conditions ;

  12. 低温型水化硅酸钙脱水相及其特性

    Dehydrated Calcium Silicate Hydrates Calcined at low Temperature and its Properties

  13. 以水化硅酸钙为基质的人工湿地系统除磷研究

    Phosphorus Removal in Constructed Wetland Using Calcium Silicate Hydrate as Substrate

  14. 水化硅酸钙的碳化作用论高职学报的影响因子

    CARBONATION OF HYDRATED CALCIUM SILICATES On the Value Orientation of Higher-vocational-college Journals

  15. 水化硅酸钙的结晶度与碳化速度

    The crystallinity and rate of carbonation of hydrated calcium silicates

  16. 聚羧酸类减水剂对水化硅酸钙微观结构的影响

    Effect of polycarboxylate-type superplasticizer on Microstructure of calcium silicate hydrates

  17. 水化硅酸钙形成的研究

    Study on the Formation of Calcium - Silicate Hydrate

  18. 水化硅酸钙强化穗状狐尾藻对底泥磷吸收能力的研究

    Study on Phosphorus Uptake from Sediment by Myriophyllum Spicatum Enhanced by Calcium Silicate Hydrate

  19. 钙硅比对水化硅酸钙形貌和结构的影响

    Effect of C / S ratio on morphology and structure of calcium silicate hydrate

  20. 水化硅酸钙的结构及其变化

    Structure and its variation of calcium silicate hydrates

  21. 酸、碱介质中介孔-微孔钛硅分子筛的合成与表征水化硅酸钙的微观结构特征及其结构模拟

    Synthesis and characterization of mesoporous-microporous titanium silicate molecular sieve prepared in acid and alkaline media

  22. 水化硅酸钙表面Zeta-电位的测定与探讨

    The Measure and Study of the Zeta & Potential on the Surfaces of Hydrated Calcium Silicates

  23. 结果表明,水化硅酸钙的表面恃性与结晶程度有一定的相关性。

    The experimental results show that the surface characteristics are correlated with crystallinity of hydrated calcium silicate .

  24. 分析了水化硅酸钙与无机或有机组分间的相互结合原理。

    The binding mechanism between CSH and the inorganic composition or organic composition is reviewed , too .

  25. 详细分析了无机和有机组分等因素对水化硅酸钙存在状态的影响。

    Influences of inorganic admixtures and organic compounds on the composition , morphology and structure of CSH are proposed .

  26. 本文还给出了不同类型的水化硅酸钙在不同介质中的双电层的设想模型。

    In this paper , the tentative models of double-layer structure of different kinds of hydrated calcium silicates in different medium solution are given .

  27. 同时指出有机组分对水化硅酸钙组成结构的影响,是需要进一步深入研究的课题。

    Further researches , such as influences of organic compounds on the CSH structure , about the variation of the composition and structure of CSH are suggested .

  28. 本文总结了灰砂材料的水化硅酸钙单体的物理力学性能以及水化产物与性能关系方面的研究进展,论述了研究水化产物与性能关系应注意的问题。

    This paper summarized the previous research results of the physical-mechanical properties of the hydrated calcium silicate crystals and the relations between the hydrates and mechanical properties and durability of lime-sand materials . The key topicals of the relations between the hydrates and properties of lime-sand materials are discussed .

  29. 粉煤灰中活性成分为SiO2和Al2O3,其水化产物为水化硅酸钙及水化铝酸钙。

    The active compositions in flyash are SiO 2 and Al 2O 3 and the products of their hydration are hydrated calcium silicate and hydrated calcium aluminate .

  30. 碱磷渣水泥的主要水化产物是水化硅酸钙、方沸石、水化硅铝酸钙。

    The study also shows that calcium silicate hydrate gel , analcite and hydrated calcium alumino-silicate are the major hydration products of the cement .