1) calcium silicate hydrated(C-S-H)
水化硅酸钙(C-S-H)
1.
Carbonation reaction and carbonation process of portland cement concrete were introduced,and carbonation of Ca(OH)2 and calcium silicate hydrated(C-S-H)was analyzed.
介绍了硅酸盐水泥混凝土的碳化反应和碳化过程,分析了Ca(OH)2与水化硅酸钙(C-S-H)的碳化作用。
2) CaO/SiO2 mole ratio of C-S-H
C-S-H凝胶钙硅比
3) calcium silicate hydrate
水化硅酸钙
1.
The nano-scale microstructure of calcium silicate hydrate (C–S–H) was investigated by means of atomic force microscope (AFM) in tapping mode using a smooth cement specimen fabricated with a special surface-replica technique.
用原子力显微镜的轻敲模式对采用特殊复型技术制备的平滑水泥基材料试样中水化硅酸钙(calcium silicate hydrate,C–S–H)的纳米尺度结构进行了研究。
2.
Hydrogarnet translate into calcium silicate hydrate,and the hydrate has two types: fine fibrous hydrate and plate high alkali hydrate-bearing Al.
水榴石转化为水化硅酸钙时同时存在两种不同形貌的物相,一种是晶粒周围出现的细小纤维状水化产物,还有一种是在大量水榴石周围出现的较大体积类板状含A l高碱水化产物。
3.
The amount of SO42- ions adsorbed by a surface composed of calcium silicate hydrate (C- S - H), after being dipped in various sulphate solutions, and the zeta potential of C - S - H under the corresponding conditions were investigated.
考察了各种硫酸盐溶液中浸泡过的水化硅酸钙(C-S-H)对SO42-离子的吸附量及其相应条件下C-S-H的ζ电位。
4) CSH
水化硅酸钙
1.
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 conditi.
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;SrO能与硅灰、水发生反应,优先生成柱状晶态产物3SrO·2SiO2·nH2O;3SrO·2SiO2·nH2O在290~350℃之间脱去结晶水;水化硅酸钙锶固溶体以絮状凝胶为主,而3SrO·2SiO2·nH2O则为柱状晶体且无交叉连生现象;钙硅比为1的CSH凝胶溶解度为0。
2.
Two samples of CSH,with 1.
3的二个水化硅酸钙样品,研究了水化硅酸钙在200~800℃温区脱水过程中发生的组成和结构的变化和其脱水相再水化。
5) hydrated calcium silicate
水化硅酸钙
1.
measurement technology,the feature, particle size and properties of hydrated calcium silicate powder are measured.
通过动态水热合成方法,采用低成本的硅藻土与生石灰作原料,在120℃恒温恒压,并分别在4h、7h、10h的蒸压制度下制备出水化硅酸钙纳米粉体。
2.
Super-fine hydrated calcium silicate powder was prepared by the hydrothermal technology with a high pressure kettle, quartz sand as the siliceous materials and the lime as calcium material.
用生石灰和石英砂作为原材料,在水热反应条件下,制备了水化硅酸钙超细粉体。
3.
In order to deepen the knowledge about the poorly crystalized hydrated calcium silicate,hydrated calcium silicate powders were prepared by means of hydrothermal synthesis using different siliceous materials.
目的研究水热合成水化硅酸钙超细粉体的微观结构,扩充对非结晶态水化硅酸钙的微观结构的认识。
6) calcium silicate hydrates
水化硅酸钙
1.
Study on Microstucture Charateristics & Structure Simualtion of Calcium Silicate Hydrates;
水化硅酸钙的微观结构特征及其结构模拟
2.
Pure calcium silicate hydrates and two samples containing organic macromolecule were synthesized by chemical agents Na2SiO3.
4H2O化学纯试剂及聚羧酸类减水剂、脂肪族类减水剂合成了纯水化硅酸钙及掺聚羧酸有机大分子的水化硅酸钙、掺脂肪族有机大分子的水化硅酸钙。
3.
The objective of the study is to test the phosphorus-removing property of calcium silicate hydrates,a new material potentially suitable for the filter bed as a substrate used in subsurface flow constructed wetlands which are applied to the purification of landscape water and eutrophication control of lakes and reservoirs.
研究了新型填料水化硅酸钙对景观水中低浓度磷的去除效果。
补充资料:水化
分子式:
CAS号:
性质:水分子的正、负电荷中心并不重合,是偶极子。它又有很强的氢键作用,故水有特殊的结构。电解质溶解时其离子的静电力破坏了水的结构,在离子周围形成水化层。这是一种溶剂化过程,物质的溶解过程必定伴随有溶剂化。许多物质能溶于水,是与水有很强的水化能力分不开的。
CAS号:
性质:水分子的正、负电荷中心并不重合,是偶极子。它又有很强的氢键作用,故水有特殊的结构。电解质溶解时其离子的静电力破坏了水的结构,在离子周围形成水化层。这是一种溶剂化过程,物质的溶解过程必定伴随有溶剂化。许多物质能溶于水,是与水有很强的水化能力分不开的。
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