1) polymer cation asphalt
聚合物阳离子沥青
1.
Application of polymer cation asphalt at block Hua-9 in Jilin oilfield;
聚合物阳离子沥青在吉林油田花九区块的应用
2) cationic bitumen
阳离子沥青
1.
Progress on research of cationic bitumen emulsifier;
阳离子沥青乳化剂研究进展
3) cationic emulsified asphalt
阳离子乳化沥青
1.
The technological benefit of cationic emulsified asphalt in road construction and its road surface construction technology;
阳离子乳化沥青筑路的技术效益及路面施工技术
2.
This paper expounds the advantages and disadvantages of emulsified asphalt,and introduces the application scope of cationic emulsified asphalt in road engineering.
阐述了乳化沥青的优点和缺点,介绍了阳离子乳化沥青在道路工程中的应用范围。
4) cation emulsified asphalt
阳离子乳化沥青
1.
Discuss the application of cation emulsified asphalt in curing;
浅谈阳离子乳化沥青在养护生产中的应用
5) cationic polymers
阳离子聚合物
1.
In this paper, the quaternary ammonium type cationic polymers prepared by our lab was used as emulsifier to emulsify AKD wax, and also PAC was used to increase the charge of the emulsion.
用自制季铵型阳离子聚合物复配乳化剂乳化AKD,研究了乳化时间、温度、搅拌速度以及乳化剂用量等因素对AKD乳液性能的影响。
2.
A new determination for hydrolysis degree of partly hydrolysis polyacrylamide was introduced in this study,which is based on the interaction between anionic polymers and cationic polymers.
提出了一种通过阴离子聚合物与阳离子聚合物间相互作用来测定部分水解聚丙烯酰胺(HPAM)水解度的新方法,可以避免由于滴定法终点判断不准对水解度检测造成的误差,所得到的标准曲线线性回归相关系数达到了0。
3.
Recent progress in synthesis of cationic polymers is reviewed in this paper.
对于阳离子聚合物的制备 ,分成两部分进行了简单综述。
6) cationic polymer
阳离子聚合物
1.
Effect of cationic polymers on performance of ink-jet memorial material;
阳离子聚合物对喷墨记录材料性能的影响
2.
Using cationic polymer for treating the produced water of oilfields;
阳离子聚合物处理油田采油污水研究
3.
The use of cationic polymer for plugging channellings and controling permeability of polymer-flooding reservoirs;
阴、阳离子聚合物交替注入用于注聚区封窜和调剖
补充资料:阳离子-阳离子干扰
分子式:
CAS号:
性质:火焰原子吸收光谱分析中,伴生阳离子对待测阳离子测定中信号的增强或抑制。它属于化学干扰;信号增强属于增感效应,信号被抑制属于干扰效应。如测定镁时铝存在可抑制镁的信号;测定铝时钛存在,可增强铝的信号。前者由于生成难解离的MgO·Al2O3,减少了镁的基态原子;后者是钛的亲氧能力比铝强,钛夺取了氧化铝中的氧,生成氧化钛,铝从氧化铝中释放出来。
CAS号:
性质:火焰原子吸收光谱分析中,伴生阳离子对待测阳离子测定中信号的增强或抑制。它属于化学干扰;信号增强属于增感效应,信号被抑制属于干扰效应。如测定镁时铝存在可抑制镁的信号;测定铝时钛存在,可增强铝的信号。前者由于生成难解离的MgO·Al2O3,减少了镁的基态原子;后者是钛的亲氧能力比铝强,钛夺取了氧化铝中的氧,生成氧化钛,铝从氧化铝中释放出来。
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