The strength and pore structure and other properties of slag-fly ash blended cement, with low clinker, have been studied in order to their components.
针对矿渣、粉煤灰的组成特点,研究了少熟料矿渣粉煤灰复合水泥的强度和孔结构和其它性能。
Super high early strength clinker has been developed and flyash aluminosilicate cement has been produced on the principle of excitation reaction.
以激发反应原理研制的超早强熟料,并用以激发粉煤灰的潜在活性制成粉煤灰硅铝酸盐水泥。
They analysed mineral constituents of the clinker by XRD and tested press strength of the specimen made with the cement paste.
利用XRD分析其熟料矿物组成并制成净浆试体测其强度。
Condensation time and strength of cement with pretreated phosphogypsum could match the standard, but the compatibility of phosphogypsum with clinker was quite different.
目前研究显示磷石膏经预处理后,凝结时间和强度能满足使用要求,但并不能说明磷石膏作为缓凝组分就能与水泥熟料很好适应。
Relationship between hydraulic reactivity of slag and strength of cement with low amount of clinker is explored under the activation of fine grinding, alkali and sulfate in combination.
研究在粉碎活化、碱性激发和硫酸盐复合激发的作用下,大掺量矿渣的活性激发与强度的关系。
XRD, SEM, and strength test, were employed to investigate the appropriate ratio and hydration mechanism of limestone-based cement consisted of limestone, stag, gypsum and a small amount of clinker.
运用XRD、SEM以及强度实验等方法,研究了由石灰石、矿渣、石膏和少量熟料组成的石灰石基水泥的适宜配比和水化机理。
Technology of clinker slag separate grinding is one of the important technical ways to improve the cement strength.
熟料矿渣分别粉磨技术是提高矿渣水泥强度的重要技术途径。
Dynamics of clinker formation with raw mix proportioning of four kinds of tailings are revealed by mechanism of burning high strength cement under low heat consumption.
用四种尾矿配料的低热耗烧高强水泥熟料的机理,确定了尾矿配料熟料形成动力学。
The strength synergistic effect of each component on composite Portland cement with fly ash, slag, steel slag and a certain amount of clinker and its influence factors are studied.
研究了由粉煤灰、矿渣、钢渣与一定量熟料组成的粉煤灰矿渣复合水泥中各组分对水泥的强度协同效应以及影响协同效应的主要因素。
The strength synergistic effect of each component on composite Portland cement with fly ash, slag, steel slag and a certain amount of clinker and its influence factors are studied.
研究了由粉煤灰、矿渣、钢渣与一定量熟料组成的粉煤灰矿渣复合水泥中各组分对水泥的强度协同效应以及影响协同效应的主要因素。
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