1) Callovo-Oxfodian(COx) argillite
Callovo-Oxfodian黏土岩
2) claystone
黏土岩
1.
Research situation of claystone as hosting rock for high level radioactive waste geological disposal;
高放废物地质处置黏土岩处置库围岩研究现状
2.
Engineering geological properties of claystone in Xixiayuan dam project on Yellow River;
黄河西霞院工程坝基黏土岩的工程地质特性研究
3.
The basic characteristics and engineering behaviors of granite,claystone,plastic clay,tuff and rock salt are also discussed.
介绍了各国高放废物处置库的围岩类型,讨论了花岗岩、黏土岩、塑性黏土、凝灰岩和岩盐的基本特征及其工程特性。
3) clay stone
黏土岩
1.
This paper employs clay stone analysis to Permian-Triassic boundary strata from three deep water sections,Duanshan,Nashui and Liuqiao,located in Guangxi and Guizhou region,southwestern China.
对贵州断杉、纳水以及广西柳桥3条深水相剖面上的二叠系—三叠系界线附近黏土岩的研究结果表明,在断杉、柳桥剖面黏土岩中的黏土矿物主要由伊-蒙混层、蒙脱石和高岭石组成,碎屑物质中存在六方双锥石英、锆石等与火山活动有关的矿物;在纳水剖面黏土岩中未发现与火山活动有关的迹象。
2.
The clay stone is also introduced by utilizing XRD and Scanning Electron Microscope (SEM) to observe from aspects of engineering application,such as micro-structure,the interaction between clay stone and water and the characteristic of weather resistance;the interacted-force of tiny grain is very important to know the characteristics of clay stone and to estab- lish micro-structural mod.
从黏土物质来源与被压实成岩过程认识黏土岩;运用X-射线衍射检测黏土岩矿物组成、运用扫描电镜(SEM)观察黏土岩微观结构、从黏土岩与水的相互作用和抗风化性等工程应用角度介绍黏土岩;认识组成黏土岩细小颗粒之间作用力,对于建立微观结构模型,解释黏土岩的性质有重要意义。
4) clay slate
黏土板岩
5) clay sandstone
黏土砂岩
6) mine clay and rock roadway
黏土岩巷道
1.
Shallow borehole smooth blasting technology applied to construction of mine clay and rock roadway;
浅孔光爆技术在黏土岩巷道施工中的应用
补充资料:CA
是以精制短棉绒经醋酸活化,在硫酸催化剂存在下,用醋酸和酯酐混合液使之乙酰化,然后加稀醋酸水解到所需的酯化度的产物。按照酯化度不同,可分为一醋酸纤维素、二酯酸纤维素、三醋酸纤维素。酯化度不同而有不同的性质和用途。酯化度大小对溶解性能有很大影响,酯化度降低则在极性溶剂中的溶解度增加,但在非极性溶剂中溶解度减小。醋酸含量60%-61.5%的三醋酸纤维素,因含羟基少,对水不敏感,可溶于二氯甲烷等。醋酸含量51%-58%的二醋酸纤维素为一般工业上用的醋酸纤维素,可溶于丙酮。三醋酸纤维素和
二醋酸纤维素为白色无定形屑状或粉状固体,无明显熔点,220 ℃开始软化。相对密度1.27-1.32,吸水性(24h)1%-4%。
醋酸纤维素可用于配制溶剂型胶粘剂,粘接眼镜、玩具等塑料制品。贮存于阴凉、通风、干燥的库房内。防雨、防晒。
二醋酸纤维素为白色无定形屑状或粉状固体,无明显熔点,220 ℃开始软化。相对密度1.27-1.32,吸水性(24h)1%-4%。
醋酸纤维素可用于配制溶剂型胶粘剂,粘接眼镜、玩具等塑料制品。贮存于阴凉、通风、干燥的库房内。防雨、防晒。
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