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- clinker bearing slag cement 矿渣硅酸盐水泥
- Alkali slag cement in which waterglass was chosen as an activator was studied. 本文研究了使用水玻璃作激发剂的碱矿渣水泥.
- This paper contrasts blast-furnace slag cement and congealing stone. 研究将矿渣硅酸盐水泥混凝土与"凝石"混凝土进行对比实验,分别对0。
- Study on steel slag cement with few (without) clinker 少(无)熟料钢渣水泥的研究
- Here is a study on how to energize the activation of water-granulated slag to improve the slag cement's early strength. 研究了如何激发水淬矿渣的活性以提高矿渣水泥的早期强度。
- Some properties of alkaliactivated slag cement(AASC)based waste forms made by press and vibration molding process are studied. 研究了用初压成型和振动成型工艺制造的碱矿渣水泥固化体的某些性能。
- Japanese Standards Association. ” Portland Blast-Furnace Slag Cement”. JIS R 5211-1979. Tokyo , JSA. (高炉石做为水泥熟料应用于混凝土专题研讨会讲义)。
- The influence of activator of Alkali-activated slag cement (AASC) on strength is studied. 本文主要研究了激发剂对碱矿渣水泥强度、硬化碱矿渣水泥浆体的孔结构及其水化程度的影响。
- The performance of the slag cement blended with desulphurization gypsum is studied. 本文研究了脱硫石膏对矿渣水泥物理性能的影响。
- A new solidification process using AASC (alkali-activated slag cement) to immobilize HLW (high level waste) is introduced in the article. 介绍了用碱矿渣水泥固化高放废液新工艺。
- The following results are obtained: The dropping quantity of the Titanium bearing Slag increases with UPC increasing. It is conclusion opposite to that of commonly blast furnace slag. 研究表明随着料层中UPC量的增加,含钛炉渣滴落量增加,对于普通炉渣得到相反的结论。
- The strength of the steel slag cement is influenced by steel slag,slag,bl ending volume of stimulator and modulus of sodium silic ate ,etc. 钢渣、矿渣、激发剂掺量及水玻璃的模数等都对钢渣水泥强度有影响。
- The variation of refractory materials' structure and composition after eroded by vanadium-titanium bearing slag with high alkali content was analyzed on the basis of laboratory erosion experiments. 通过高碱含量的钒钛渣对不同耐火材料的侵蚀实验,分析了碱侵蚀后耐火材料结构及附渣组成的变化。
- The effect of additives A,B and C on grinding ordinary Portland cement,slag cement and fly ash cement was studied in this paper. 试验研究了A、B、C三类小极性分子对普通硅酸盐水泥、矿渣水泥 ,粉煤灰水泥的助磨作用。
- The hydration products of slag cement are also analyzed and identified by the aid of SEM, EDXA and electron diffraction. 利用扫描电镜、电子衍射,并结合能谱分析技术对矿渣水泥的水化产物进行了分析和鉴定。
- Alkali_aggregate reaction expansion of mortars prepared with three types of alkali_activated slag cement(AASC) were measured by way of mortar test. 通过测长试验,研究了三类碱矿渣水泥(AASC) 砂浆的碱集料反应(AAR) 引起的膨胀;
- The el cts of chemical composition of waterglass on the compressive strength and pore structure of alkali slag cement paste were investigated. 本文主要研究了激发剂对碱矿渣水泥强度、硬化碱矿渣水泥浆体的孔结构及其水化程度的影响。
- Therefor the temperature of it was higher than slag Cement containing C_4A_3. And the condition of fly- ash Cement containing C_4A_3 was in favor of the formation of AFt. 指出含C_4A_3矿物粉煤灰水泥水化放热量多,体系温度高于含C_4A_3矿物矿渣水泥,且其体系化学环境也有利于AFt的形成。
- The mechanical properties and durability of chemically activated high range slag cement were studied. The chemical activator is Na_2CO_3 with incorporation rate from 0.5% to 2.0%. 探讨了化学激发剂Na2CO3对高掺量矿渣水泥的力学及耐久性能的影响。
- The mechanisms of adsorption and chemical immobilization in Alkali-Activated Slag Cement (AASC) waste forms were quantitatively studied for Cs+ and Sr2+. 对Cs~+和Sr~(2+)在碱矿渣水泥固化体中的吸附和固溶机理进行了定量研究。
