悬浮液稳定性

  • 网络suspension stability;stability of suspension
悬浮液稳定性悬浮液稳定性
  1. 研究了各组分和工艺参数对无石棉胶乳抄取密封材料悬浮液稳定性的影响。

    The influence of each component and parameter on the stability of suspension was studied .

  2. 结果表明:配方是决定悬浮液稳定性的关键因素,尤其是纤维和填料的含量,尤以海泡石纤维的影响最为显著。

    The formulation was a key factor for the stability of suspension , especially the content of the fibers and fillers . The sepiolite fiber was the most important factor to suspension .

  3. 两种分散剂交互作用Al2O3悬浮液稳定性的研究

    Study on the Stability Behavior of α - Al_2O_3 Suspension Interact with Two Dispersants

  4. 亚微米Al2O3、3Y-TZP和纳米SiC水悬浮液稳定性的研究

    An investigation on stability of submicrometer al_2o_3 , 3Y-TZP and Nanometer SiC aqueous suspension

  5. pH对α-Al2O3-H2O-聚丙烯酸悬浮液稳定性的影响

    Effect of pH value on stability of aqueous α - al_2o_3 suspensions with polyacrylic acid

  6. 复配分散剂对ZrO2悬浮液稳定性的影响

    Effect of Composite Dispersants on the Stability of ZrO_2 Suspension

  7. 由于PVA、PVP大分子的熵弹性和渗透压效应,能改善悬浮液稳定性。SA-Na、PA-Na还具有静电排斥的机理,因此,比PVA、PVP更能显著地改善石墨悬浮液的分散性与稳定性。

    The stability of the graphite aqueous suspensions was improved with PVA or PVP due to the macromolecular entropic elasticity and osmotic pressure .

  8. 利用zeta电势来表征悬浮液稳定性,研究了超声分散时间和浓度等因素对电导率的影响。

    The zeta potential values were measured to reflect the stabilities of suspensions . Ultrasonic dispersion time and concentration were studied on the influence factors of suspensions .

  9. 超细重质碳酸钙水悬浮液稳定性的研究

    A study on stability of ultrafine ground calcium carbonate aqueous suspension

  10. 微细粒悬浮液稳定性判据与时间及表面电位的数学关系式

    Relationship of stability of fine suspension with surface potential and time

  11. 纳米氧化镁水悬浮液稳定性的研究

    Study on Stability of Aqueous Nano - Scaled MgO Suspension

  12. 黏度对纳米颗粒悬浮液稳定性的影响

    Research on stability of nano - particle suspension

  13. 纳米颗粒悬浮液稳定性分析

    Stability of Nano - particle Suspensions

  14. 分散剂对氧化物陶瓷微粉悬浮液稳定性的影晌

    The Effect of the Dispersing Agents on the Stability of Oxide Ceramic Ultrafine Powders Suspending in Liquid

  15. 研究了三峡库区紫色土胶体的表面电荷性质及其对变化环境的响应以及对紫色土粘粒悬浮液稳定性的影响。

    The surface charge properties plays an important role in stability and deposition of cohesive sediment particle in the water .

  16. 非离子表面活性剂的吸附机理和表面胶团化对二氧化硅悬浮液稳定性的影响

    The Mechanism of Adsorption of Nonionic Surfactants on CAB-O-SIL and the Effects of Surface Micellization on the Stability of Silica Suspension

  17. 改性超细Al(OH)3水悬浮液的稳定性

    Stability of ultrafine A1 ( OH ) _3 powder-modified aqueous suspension

  18. γ-Fe2O3的表面润湿性与其悬浮液的稳定性

    The wettability of γ - fe_2o_3 particles and the stability of their suspensions

  19. 聚合物分散剂对纳米TiO2水悬浮液分散稳定性的影响

    Influence of Polymer Dispersants on Dispersion Stability of Nano-sized TiO _2 Aqueous Suspension

  20. 加入表面活性剂使颗粒表面Zeta电位绝对值变大,提高了悬浮液的稳定性。

    The addition of surfactant can increase the absolute value of Zeta potential and improve the stability of suspension .

  21. BaTiO3悬浮液的稳定性研究

    Study on Stability of Aqueous BaTiO_3 Suspensions

  22. PAANH4-凹凸棒石粘土水悬浮液分散稳定性研究

    Study on the Stability of Attapulgite Aqueous Suspensions with Dispersant PAANH_4

  23. 纳米二氧化锆悬浮液分散稳定性研究

    The study on the dispersion and stability of ZrO_2 nanoparticles suspension

  24. 纳米氧化钇粉体前驱体固相法合成及其悬浮液分散稳定性

    Solid State Synthesis of Nanometer-Yttria Powder Precursor and Dispersion Stability of Suspension

  25. GB/T4468-1984分散染料悬浮液分散稳定性测定法

    Test method for the dispersion stability of disperse dye suspensions

  26. 悬浮液的稳定性与农药水悬浮剂研究开发现状

    Stability of Suspension Solution and Development of Suspension Concentrate Products

  27. 高铈抛光粉表面电性及悬浮液分散稳定性研究

    Study on Surface Electric Properties of Polishing Powder and Dispersible Stability of Suspending Liquid

  28. 微细粒悬浮液的稳定性对细粒选矿工艺有重要影响。

    The stability of fine suspension has an important influence upon fine mineral processing .

  29. 水产饲料外喷涂悬浮液化学稳定性的研究

    The Study of the Chemical Stability of the Suspension Used for Out - spayed on Aquatic Feed

  30. 质点表面的润湿性与其水相和非水相悬浮液的稳定性有直接的对应关系。

    The wettability of particle surface was found tobe related directly to the stability of bothe aqueous and nonaqueous suspensions .