1·The hydration degree of cements, the pore structure and the pore size distribution of hydrated cement mortars were analyzed by chemical binding water and mercury intrusion porosimetry(MIP).
用结合水法、压汞法对水泥水化程度、水泥石孔结构及其分布进行研究。
2·The cement soil improvement principle is the cement distributes in the soil constitutes the firm core, forms the hydrated cement in all crevices the skeleton, in order to the restraint soil particles.
水泥土改良的原理是水泥分布在土中构成坚固的核心,在所有的空隙中形成水化水泥的骨架,借以约束土粒。
3·The effect of slag, fly ash, and calcined shale on setting time, compressive strength, resistivity, composition and microstructure of hydrated product of alite-rich Portland cement were studied.
研究了矿渣、粉煤灰和烧页岩单掺及复掺对高阿利特水泥凝结时间、抗压强度、电阻率、水化产物组成及微观结构的影响。
4·By using the gel property of FGD -gypsum, mixing it with waste material from thermal power plant in a certain proportion can generate a component similar to hydrated product of cement.
利用脱硫石膏的胶凝性能,将之与火电厂废弃物按一定比例混合后,能产生与水泥水化产物相似的成分。
5·Crystal nuclei made from Pre-hydrated OPC were blended into cement and the effect of the crystal nuclei on the early strength of cement was studied.
用普通水泥以一定方式预水化制成晶核,掺入该水泥中,研究其对水泥早期强度的影响。
6·The study also shows that calcium silicate hydrate gel, analcite and hydrated calcium aluminosilicate are the major hydration products of the cement.
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。
7·Adding 6% cement or 3% hydrated lime and 1% industrial syrup as binders, its compressive strength can satisfy melting strength.
采用添加6%水泥、3%消石灰加1%工业糖浆作为粘结剂,其强度均能满足熔融分离处理过程要求。
8·The comprehensive study on the impact and mechanism of mineral fillers, as fly-ash, Portland cement, slag-powder, hydrated lime and so on, improved asphalt concrete stability is scarce.
对于替代矿粉使用的粉煤灰、水泥、矿渣粉、石灰等填料对沥青混合料性能的改善效果及机理缺乏系统的研究。
9·This paper studies the influence of cement and hydrated lime on performance of asphalt mortar.
研究掺加水泥和消石灰对沥青胶浆性能的影响。
10·The difference of effects of burnt lime and hydrated lime, raw gypsum and burnt gypsum on white cement was studied, and the optimal type of lime and gypsum was determined.
研究了生石灰和熟石灰、生石膏和熟石膏对无熟料白水泥的影响差异,确定了最优石灰和石膏类型。