1) grouting curtain
注浆帷幕
1.
Based on the engineering practice and a series of methods including theoretical analysis, laboratory tests, site observation and numerical simulation, the retention mechanism and anti-seepaging capability of clay-solidified grouting curtain (CSGC) to leachate are systematically researched and the environmental effects of CSGC applied in MSW landfill is completely eval.
本文在对填埋场防渗技术研究现状讨论分析的基础上,通过理论分析、室内试验、现场检测、数值模拟以及工程实践相结合,系统研究了粘土固化注浆帷幕对渗滤液的抗渗阻滞作用机理及规律,全面分析了帷幕在填埋场中应用的长期环境效应,主要研究内容如下: (1)粘土固化注浆帷幕对渗滤液的抗渗性能。
2) Curtain grouting
帷幕注浆
1.
Application of large curtain grouting technology for water control in Yagongtang Mine Area of Shuikoushan Lead-zinc Mine;
水口山铅锌矿鸭公塘矿区大型帷幕注浆治水工程技术的应用
2.
The numerical simulation analysis of the building curtain grouting reinforcement effect;
建筑物帷幕注浆加固效果的数值模拟分析
3.
Construction technology of curtain grouting for high pressure and rich water zone treatment in 0# transverse gallery of one tunnel;
隧道0号横洞高压富水区帷幕注浆及施工技术
3) Curtain grouting method
帷幕注浆法
1.
Curtain grouting method was adopted in passing the fractured belt,with eight curtain holes,756.
采用帷幕注浆法通过破碎带,设计帷幕孔8个,进尺756。
2.
The technique combined the pipe roof technic and curtain grouting method and assured the tunneling safety.
在总结前人研究成果的基础上,借用水力学安全厚度的计算方法,研究了煤矿巷道开挖碰到含高压瓦斯、H2S气体构造破碎带的情况,首次将管棚支护技术与帷幕注浆法相结合,确保安全掘进的技术措施。
4) grouting wall system
注浆帷幕体
1.
For the stability analysis of grouting water proof wall,the seepage permeability of limestone grouting wall system was tested,the overall process of seepage of the limestone grouting wall system is obtained.
为了研究注浆堵水帷幕的稳定性,对灰岩注浆帷幕体的渗透特性进行了试验研究,获得了灰岩注浆帷幕体受压破坏全过程的渗透规律。
5) grouting curtain method
注浆帷幕法
1.
The grouting curtain method in treating severe mobile sand occurred in artificial spaded pile
注浆帷幕法对人工挖孔桩出现流沙现象的治理
6) Underground curtain grouting
井下帷幕注浆
补充资料:电泳注浆成型
分子式:
CAS号:
性质:陶瓷浆料的成型方法之一。利用浆料中颗粒荷负电,在直流电场作用下向阳极运动而沉积在模型(阳极)上形成坯体的成型方法。此法可加快坯体形成速度,坯体较致密,可用于面砖,基板等的成型,但有时会因水的电解作用产生气泡,电场不均匀会造成坯体厚薄不均或脱模困难,故尚未得到广泛使用。
CAS号:
性质:陶瓷浆料的成型方法之一。利用浆料中颗粒荷负电,在直流电场作用下向阳极运动而沉积在模型(阳极)上形成坯体的成型方法。此法可加快坯体形成速度,坯体较致密,可用于面砖,基板等的成型,但有时会因水的电解作用产生气泡,电场不均匀会造成坯体厚薄不均或脱模困难,故尚未得到广泛使用。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条