微胶囊

  • 网络microcapsule;microcapsules;Capsule;encapsulation
微胶囊微胶囊
  1. 超临界CO2萃取与同轴喷嘴耦合制备花椒油微胶囊

    Coupling of supercritical CO_2 extraction and coaxial nozzle spray drying to prepare zanthoxylum oil microcapsule

  2. 检测了AA油微胶囊稳态化产品的品质。

    The quality of microcapsule of AA oil was tested .

  3. 安息茴香油超临界CO2萃取及微胶囊包埋技术研究

    Studies on Supercritical CO_2 Extraction and Micro-encapsulation Technology of Cumin Oil

  4. 接骨木果油的超临界CO2流体萃取及其微胶囊技术研究

    Extraction of Sambucus williamsii fruits oil by supercritical CO_2 fluid and its microencapsulation

  5. 微胶囊型天然VE的研究

    Study on the Microencapsulated Natural Vitamin E

  6. 离心喷雾造粒对VA微胶囊容重和流动性的影响

    Effect of Centrifugal Spray Granulation on the Test Weight and Flow Property of Vitamin a Microcapsule

  7. 对乳状液采用喷雾干燥法制备IgG微胶囊。

    IgG microcapsules were prepared by emulsified / spray drying .

  8. Fe3O4/海藻酸盐微胶囊固定化细胞生长特性

    The Growth Property of Cell Immobilized in Fe_3O_4 / Alginate-based Microcapsules

  9. 微胶囊膜表面化学组成的XPS分析

    Chemical Analysis of Surface of Microcapsules using XPS

  10. 采用扫描电镜(SEM)、激光粒度仪、Xray、FTIR、DSC等测定并表征了包药微胶囊的结构。

    Its structure was determined and expressed by SEM , Laser particle sizer , X-ray , FTIR and DSC .

  11. 研究了超临界CO2萃取花椒油,并直接采用同轴喷嘴喷雾干燥制备微胶囊。

    Zanthoxylum oil is extracted with supercritical CO_2 and encapsulated by spray drying ( using a coaxial nozzle ) .

  12. 由傅立叶变换红外光谱(FT-IR)研究了PU微胶囊的化学结构;

    The chemical structure of PU microcapsule was researched by IR ( Infrared Spectrum ) .

  13. 最后,以CS微胶囊为微反应器,在反应器内原位生成氧化铁纳米粒子,得到磁性CS微胶囊。

    Third , the chitosan microcapsules are used as a microreactor and iron oxide nanoparticles are incorporated within chitosan microcapsules .

  14. 使用差示扫描量热仪(DSC),对PU微胶囊的玻璃化转变及微相分离结构进行了研究;

    The glass transformation and microphase separation structure of PU microcapsule were researched by DSC ( Differential Scanning Calorimetry ) .

  15. 明胶/海藻酸钠作为基材制备pH值敏感型微胶囊,应用于包埋药物奥美拉唑,对改善其生物利用度,提高药效有很大的应用价值。

    It was concluded that the gelatin / sodium alginate as a kind of backing material possesses a great application merit for the preparation of pH-sensitive microcapsule for omeprazole .

  16. 海藻酸钠-壳聚糖-海藻酸钠(ACA)微胶囊的蛋白质通透性研究

    Study on ACA Microcapsule Permeability with Proteins

  17. 采用微胶囊化技术以月见草油、卵磷脂、维生素E生产具有调节血脂功能的复合降脂冲剂。

    Microencapsulated powder of evening primrose oil , lecithin and vitamin E , were developed as a health food with a serum lipid adjustment function by spraying dry technology .

  18. 本研究制得之微胶囊藉由血小板吸附实验评估PLA及PLGA基质经制备程序后之生物相容性。

    Finally , the blood compatibility of PLA and PLGA samples were estimated in biocompatibility after prepared process .

  19. 微胶囊红磷在TPU阻燃系统中的应用

    Application of Microencapsulated Red Phosphorus in TPU Flame Retarded System

  20. 讨论了反应介质的pH值、催化剂、酸化时间和反应温度对微胶囊粒径及其分布、微胶囊结构的影响。

    Effects of pH value of reaction medium , catalyzer , acidizing time and reaction temperature on the size , distribution of particle size and structure of microcapsules were discussed .

  21. 红外光谱检测结果表明IgG微胶囊化后,酰胺带的所有特征峰均存在,基本保持了蛋白原有的结构及营养价值。

    Infrared test results showed that microencapsulated IgG , containing all characteristic peaks of polyacrylamide , retained the original structure and nutritional value .

  22. APA生物微胶囊膜物理结构研究

    Study on Physical Stucture of APA Microcapsule

  23. 将微胶囊用于CE树脂的增韧改性中,在提高了树脂力学性能的同时,也赋予材料以多功能性。

    Toughening CE resin by using microcapsules can not only improve the mechanical properties of the resin , but also gives versatility for the resin .

  24. 通过CMC浓度可以调节微胶囊的膜厚和机械强度。

    The thickness of membrane and mechanical strength of microcapsule could be regulated by varying the CMC concentration in polyanion solution .

  25. 制得的ACA生物微胶囊被用于木糖醇的分批发酵,并与传统的游离发酵和海藻酸钙固定化发酵作对比。

    ACA microcapsule was applied in xylitol batch fermentation . The microcapsules were used repeatedly in four batches .

  26. 以Pickering乳液为模板制备出了农药微胶囊。

    The pesticide microcapsules were obtained use Pickering emulsions as templates .

  27. 采用微胶囊化技术将鱼油DHA微胶囊化,然后添加到明胶软糖中,制成新型保健糖果。

    The microencapsulation of DHA in fish oil was added into gelatin soft sweets in order to make a new health candy .

  28. TDI用量增多,制备的微胶囊的外观形态变得粗糙,粒径增大,粒径分布变宽;

    The morphological structures became coarser , particle sizes bigger and particle size distribution wider with increase in the amount of TDI .

  29. 描述了采用密胺树脂和硼酸锌连续双层包覆微胶囊化红磷(MRP)的最新制备方法。

    Microcapsulated red phosphorus ( MRP ) coated with melamine-formaldehyde resin and zinc borate was prepared and characterized by FTIR , XPS and TEM .

  30. 微胶囊化TBC及其应用

    Microencapsulated TBC and Its Application