水泥-水玻璃(CS)双液注浆技术以其凝固速率可控性强、材料来源广,在岩土工程中得到广泛应用。
With its controllable solidifying velocity and vast raw material source, cement-water glass(CS)two-shot grouting has found wide applications in many geotechnical projects.
研制了一种以无机聚合物(水玻璃)为速凝剂、以磷酸盐为缓凝剂配制而成的CWP水泥复合浆液。
This paper expresses a kind of CWP composite cement grout made up of water, cement, water glass as accelerant and phosphate as retarder.
还可用于水玻璃和水泥自硬砂砂块的破碎。
It can also be used for crushing of sodium silicate and cement sand.
通过试验,研究了水玻璃模数及其掺量对碱矿渣水泥性能的影响。
Through experiment, the influence of glass water modules and its mixing rate to the alkali slag cement performance is studied.
在水泥砂浆中掺入水玻璃作为排水管的接口材料,能有效克服地下水影响,提高了接口工程质量。
The drain pipe jointing material of cement mortar with addition of water glass can effectively overcome the influence of groundwater and improve the quality of the joints.
试验结果表明,水玻璃能显著加快水泥浆的凝结时间。
The results showed that silicate can significantly speed up the setting time of cement grout.
研究了磷酸盐、含钙材料对水玻璃—矿渣水泥的凝结时间的影响。
This paper studies the influence of phosphate, calcareous material on set time of water glass-slag cement.
分析了水玻璃化学组成对碱矿渣水泥浆体抗压强度和孔结构的影响。
The el cts of chemical composition of waterglass on the compressive strength and pore structure of alkali slag cement paste were investigated.
介绍了隧道坍方中水泥—水玻璃双液注浆施工工艺处理及其应用。
This paper introduces the treatment and application of construction technology of cement-water glass two-shot grouting in the tunnel collapse.
水泥浆较稀时,随着水玻璃浓度的增加,抗压强度是降低的。
When slurry is thin, compressive strength is reduced with increasing silicate concentration.
分析了水泥浆液中掺入水玻璃对水泥凝结时间和无侧限抗压强度的影响。
The paper analyzed the influence of cement-silicate on setting time and compressive strength.
分析了土家湾隧道坍方的原因,阐述了该隧道塌方综合处治技术和相关的防排水措施,采用水泥水玻璃双液注浆加固施工工艺。
The reason of Tujiawan tunnel collapse was analyzed. This paper discussed the technical parameter of cement-silicate grouting reinforcement? Support of surrounding rock and its relative technology.
只有当水玻璃中的氧化纳和二氧化硅在一定范围内才能获得高强度碱矿渣水泥浆体。
Alkali slag cement paste achieved the highest strength only when the Na2O and SiO2 of waterglass were around a certain content.
采用水玻璃激发高炉粒化矿渣,制备出了强度等级达到水泥52.5的化学结合陶瓷,并研究其反应机理。
Activated by sodium glass, chemically bonded ceramics were produced with water-hardened slag grains from blast furnace, and the strength grade could be the same as grade 52.5 cement.
采用水玻璃激发高炉粒化矿渣,制备出了强度等级达到水泥52.5的化学结合陶瓷,并研究其反应机理。
Activated by sodium glass, chemically bonded ceramics were produced with water-hardened slag grains from blast furnace, and the strength grade could be the same as grade 52.5 cement.
应用推荐