胶体系统

  • 网络colloidal system;colloid system
胶体系统胶体系统
  1. 部分带电胶体系统排空力的MonteCarlo模拟

    Monte Carlo Simulation of Depletion Force in Partial Charged Colloidal System

  2. 同时,Zeta电位与胶体系统中游离药物量相关。

    Simultaneously , the charge of Zeta potential agreed well with the amount of free drug in the colloidal system .

  3. 本文主要评述胶体系统在这一领域的研究现状,包括标准Poisson-Boltzmann或平均场理论对于电双层研究的局限性和微离子之间空间相关性的重要性;

    The present review mainly comments the outlook of colloidal system in this field , including the limitations of the standard Poisson-Boltzmann or mean-field theory of electric double layers and the importance of spatial correlations between microions ;

  4. 静电势对带电胶体系统排空作用的影响

    Effect of Electrostatic Potential on the Depletion Interactions in Charged Colloidal Systems

  5. 胶体系统在光波段三维光带隙材料制备方面的研究进展

    Progress in Preparation of 3D Photonic Band Gap Materials by Colloid System

  6. 放电加工的极间胶体系统

    The Colloid System Between the Electrodes in EDM

  7. 带电胶体系统中的排空作用

    Depletion interactions in charged colloidal system

  8. 疏液的胶体系统中胶体媒质和分离媒质之间缺乏吸引力特性的。

    Characterized by a lack of attraction between the colloid medium and the dispersion medium of a colloidal system .

  9. 首先,本文给出了一个重要的概念-分部函数,它是胶体系统研究中的一个很重要的量,被用来计算系统的热力学量。

    First , an important concept-distribution function is presented , which will be used to calculate the related thermodynamic quantities in the colloidal system .

  10. 本文第一章对软物质物理领域里的胶体系统作了简要介绍。主要包括胶体系统中的相互作用力和胶体相行为两部分。

    In the first chapter , we present a brief introduction on colloidal systems , mainly focused on forces between colloids and the phase behavior .

  11. 而且弱絮凝与絮凝不同,它不会使胶体系统失稳,合乎产生光学各向异性的事实,从而揭示了磁性液体在外施磁场作用下的方向性弱絮凝是产生光学各向异性的机理。

    And more , the weak flocculation is directional , and the colloid system is stable . This reveals the anisotropy mechanism of magnetic fluids in an external magnetic field .

  12. 目的探索不同外水相组成对胰岛素纳米颗粒胶体系统分散性的影响,为深入开展纳米载药颗粒研究提供依据。

    Objective To explore the effect of external water phase on the dispersion of micro - / nanoparticles containing insulin in water and provide a basis for the development of micro - / nanoparticles as carriers of drugs .

  13. 这些结果有利于更加透彻地认识排空耦合效应的本质,而且对探索胶体系统的相关性质具有一定的指导作用。

    Obviously , these results not only enable people to have a more thorough understanding of the nature of the Coupling Effect of Depletion Force , but also provide some guidance to explore the related properties of the colloidal system .

  14. 胶体系统作为一种很好的原子/分子体系的模拟系统,被广泛用于晶体的形核、相转变和缺陷生成等过程的动力学研究。

    Colloidal system is considered as a good counterpart of atomic system ( or molecular system ) to study cooperative phenomena which are not likely to be investigated directly in atomic system , such as nucleation , phase transition and defect dynamics .

  15. 二分量带电胶体悬浮系统的等效硬球模型

    Effective hard sphere model of two-component charged colloidal suspensions

  16. 胶体悬浮系统是指微小颗粒分散于溶剂中而形成的系统,是软物质的一种。

    The colloidal suspension system which is formed by diffusing small particles in solvent , is a sort of soft matter .

  17. 研究多分量胶体悬浮系统的反射理论,给出用反射理论推导转动扩散张量的方法。

    This paper studies the reflection theory for multi-component colloidal suspension systems and presents the method of deriving the rotational diffusion tensor .

  18. 用积分方程方法计算了二分量带电胶体悬浮系统的等效相互作用,研究了耗尽作用的影响。

    By means of the integral equation method , the effective interaction between the colloid spheres of two component charge stabilized colloid suspensions was calculated .

  19. 非离子表面活性剂在胶体基因给药系统中的应用

    The Application of Non-ionic Surfactants in Colloidal Gene Delivery Systems

  20. 根据下石节煤矿地表黄土特性,研制出适合下石节矿特点的复合胶体材料,并开发出相应的复合胶体防灭火系统,实现灌注优质泥浆、复合胶体和高分子胶体的功能。

    A composite gel fire-fighting material is developed with loess around Xiashijie coalmine , the correlative composite gel injecting system is also developed , which slurry , composite gel and polymer gel .