1) Cu-Cl-H2O system
Cu-Cl-H2O体系
2) NH3-Cl-H2O system
NH3-Cl-H2O体系
3) Cu-H2O nanofluids
Cu-H2O纳米流体
1.
It has been found that under the optimum pH and SDBS dispersant concentration conditions,particle concentration greatly effect affects the dynamic viscosity of Cu-H2O nanofluids.
采用毛细管粘度计测量了Cu-H2O纳米流体的粘度,研究了pH值、分散剂加入量和纳米颗粒质量分数对纳米流体粘度的影响。
2.
A spot of Cu nanoparticles (particle size 25nm) are added in the deionized water,through supersonic oscillating and addition of the dispersant,and the Cu-H2O nanofluids with better stability and evenness are prepared.
在水基液中添加少量的纳米Cu颗粒(平均粒径为25nm),经超声波振荡和添加分散剂后,制备成分散稳定的Cu-H2O纳米流体。
4) CH4-H2O system
CH4-H2O体系
1.
The researched fluid inclusion is in a CH4-H2O system identified by Raman spectroscopy at room temperature.
并由常温拉曼光谱分析表明,研究流体包裹体的流体组成为CH4-H2O体系。
5) CO_3~(2-)-H_2O system
CO32-H2O体系
6) K_2B_4O_7-H_2O
K2B4O7-H2O体系
补充资料:A1-Cu-Co合金中十次对称准晶单晶体及其衍射图
A1-Cu-Co合金中十次对称准晶单晶体及其衍射图
‘ Al Cu—Co合金中十次对称准晶堕晶体e1)及其衍射圈(z) 中国科学盹垒禹研览听供稿
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