This paper adopts ultra-fine fly ash and silica fume concrete materials to prepare high performance composite technology(HPC).
本文采用超细粉煤灰与硅灰的复合技术配制高性能混凝土材料(HPC)。
This paper studys the influence of the mineral admixtures such as ultra-fine fly ash, ultra-fine slag and silica fume on compressive strength of lytag concrete.
利用磨细粉煤灰、磨细矿渣和硅灰作为矿物掺合料,研究了各种矿物掺合料对粉煤灰陶粒混凝土抗压强度的影响。
The effect of fine process on fly ash has been studied by test, as well as the characteristic of fine fly ash. The mechanism to activate fly ash by fine process is unveiled.
试验研究了粉煤灰的细磨加工效应和细磨灰的特性。揭示了粉煤灰细磨加工活化机理。
Other aspects of this test and analysis explored the ultra-fine fly ash and silica fume composite effect of the mechanism and demonstrated the feasibility of HPC using ultra-fine fly ash.
本文其他方面的测试分析,剖析了超细粉煤灰与硅灰复合效应的机理,论证了用超细粉煤灰配制hpc的可行性。
The research achievement of the embankment constructed with frost susceptibe a loose fine aggregate and fly ash and frost prevention are introduced.
主要介绍冰冻地区利用具有一定冻敏性的松散细集料粉煤灰修筑路堤及冻胀防治的研究成果。
The result shows that the burned fly-ash has fine capability of the anti-acid and is practicable to be used in the particles strengthening anti-acid material.
实验结果表明:经过处理的粉煤灰作为粒子增强耐酸胶凝材料中的耐酸材料具有良好的耐酸性能,用于粒子增强耐酸胶凝材料是完全可行的。
In highly regulated environments, such as Australia, fly ash is trapped in super fine filters and pumped into special ash holding DAMS, or used to fill mining voids.
在管理体系非常完善的国家,如澳大利亚,通常是采取将粉煤灰放入一个超细的过滤器进行过滤然后排放到一个煤尘特别处理坝亦或者进行掩埋。
When super-fine steel slag powder and high-quality fly ash were added into concrete together, the performance of concrete could be improved further due to the synergistic effect.
将磨细钢渣与优质粉煤灰复掺可以发挥超叠加效应,进一步改善混凝土性能;
When super-fine steel slag powder and high-quality fly ash were added into concrete together, the performance of concrete could be improved further due to the synergistic effect.
将磨细钢渣与优质粉煤灰复掺可以发挥超叠加效应,进一步改善混凝土性能;
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