| 1. | Nanobubbles at the solid water interface
固液界面纳米气泡的研究进展 |
| 2. | Solid liquid interface
固液界面 |
| 3. | Controlling solid - liquid interface configuration during crystal growth of cdznte by vertical bridgman method
晶体时固液界面形状的控制 |
| 4. | Above all , the adsorption characters of macromolecules in model were in agreement with those in real solution
所建立的吸附模型能反映真实高分子在固液界面上的吸附特性。 |
| 5. | The volume fraction , the transverse area and the spacing of the tac fibers are measured with leica quantimet 500 instrument
采用对试样液淬的方法获得该种共晶自生复合材料的各种固液界面形态。 |
| 6. | It has been found that the temperature gradient ahead of the solid / liquid interface is almost linearly increased with the increasing of withdrawing rate
实验发现,熔区内固液界面前沿的温度梯度随着区熔速率( r )的增加呈线性增加。 |
| 7. | The temperature distribution in a crystallizer has important influence on the position and shape of solid - liquid interface during continuous unidirectional solidification
摘要连续定向凝固过程中结晶器的温度分布对固液界面位置和形状具有重要影响。 |
| 8. | The adsorption behaviors of simulation macromotecules in different conditions could be explained by the adsorption characters of real macromolecules in corresponding conditions
模拟条件下的高分子在固液界面的吸附特性符合langmuir吸附等温式,与试验研究结果一致。 |
| 9. | Longitudinal and transverse metallographic specimens for microscopic observation were prepared using conventional techniques . the morphology evolution was observed with neophot - 1 metaloscope and amray100b sem
利用热电偶测温方法,对定向凝固过程中固液界面温度梯度及影响因素进行测试和分析。 |
| 10. | ( 2 ) an electric double layer ( edl ) model is brought forward . according to this model , mechano - electric effect is related to the electrokinetic phenomenon of solid / liquid interface edl in concrete
( 2 )提出了混凝土内固液界面偶电层和离子分布模型,依据此模型阐明了碳纤维混凝土和素混凝土力电效应的微观机理。 |
