修补、填缝、不垂流壁材涂覆保护膜。
以干啤酒酵母细胞为壁材制备丁香油微胶囊。
The microcapsule of Clove Oil CO was prepared by utilizing dried beer yeast s.
研究喷雾干燥法制备高包埋量微胶囊化鱼油的壁材选择。
In the preparation of fish oil microcapsules by spray drying, Effects of total solids, thermal denatuation of soy protein isolate(SPI), DE value of maltodextrane(MD) and emusifiers were discussed.
微胶囊是现代高新技术,可以通过壁材的包埋作用保护油脂。
Microencapsulation is a new Hi-Tech, which the oil can be protected by the wall materials encapsulation effect.
硅藻泥、海贝泥作为一种功能性壁材,已经受到越来越多人的关注。
Diatom mud, seashells mud as a kind of functional material of wall, have been influenced by more and more people's attention.
并以赤豆酶解产物为壁材,通过制备微胶囊技术制得全赤豆速溶饮品。
With the product of enzymolysis as the wall material, an instant all-red bean drink was made by the micro-encapsulation technology.
采用差示扫描量热(dsc)法对微胶囊的壁材厚度和含量进行计算。
The content and the thickness of the microcapsule wall were obtained by using DSC analysis.
选取石蜡作为包覆壁材,采用熔化分散冷凝法制备得到了堵剂微胶囊。
We choose wax as coating material, use melting condensation method to synthesize plugging agent micro-capsule.
以螺恶嗪为芯材,用原位聚合法制备了蜜胺脂为壁材的光致变色微胶囊。
The photochromic microcapsules with melamine resin as wall material and spirooxazine as core material were prepared by situ polymerization.
考察了系统调节剂、搅拌、壁材用量对微胶囊的粒径分布及其形貌的影响。
The paper investigated the effects of the system modifier, stirring velocity and dosage of wall material on the sizes distribution and morphology of the microcapsules.
随着壁材总浓度的增大,芯材乙酸油酯包覆率呈现先上升后下降的变化趋势。
It was found that the encapsulation rate increased with decrease in concentration of wall material.
介绍了以乙基纤维素为壁材,无机变色材料为芯材,油相分离法制备微胶囊技术。
The technology of microcapsule preparation by oil phase isolation method was introduced, where ethyl cellulose was used as wall material and inorganic thermochromism material as core material.
以己二酰氯-三乙烯四胺为壁材,四氯乙烯为芯材,通过界面聚合法制备微胶囊。
Microcapsules were prepared by interfacial polymerization, with adipoyl chloride-triethylenetetramine as wall material, and tetrachloroethylene as core material.
目的:探讨以脲醛树脂为壁材,以氯氰菊酯为囊芯物制备聚脲微胶囊的工艺条件。
Objedtive: To explore the technological conditions about preparing for microcapsules with an urea-formaldehyde resin as wall and with cypermethrin as core material.
研究结果表明一定葡萄糖值的低粘度ssos作为微胶囊壁材具有很好的包埋效果。
The results indicated that low viscosity of SSOS with certain dextrose equivalent would be potential wall materials for microencapsulation of lemon oil.
以明胶和阿拉伯树胶为微胶囊的壁材,玫瑰香精为芯材,采用复凝聚法制备香精微胶囊。
The fragrant microcapsule was prepared with gelatin and Arabic gum as the wall material and rose essence as core by compounding and coagulation.
研究采用了以三聚氰胺-甲醛为壁材,正十四烷为芯材原位聚合法制备微胶囊相变材料。
Microcapsules loaded with tetradecane as the core material are prepared by in-situ polymerization methods.
研究了分散、乳化条件及成囊工艺对以脲醛树脂为壁材制备二甲戊乐灵微胶囊状态的影响。
Microcapsules of pendimethalin with a urea-formaldehyde resin wall were prepared by an in-situ condensation polymerization reaction in aqueous medium.
本文以硬脂酸丁酯为相变材料,蜜胺树脂为壁材,采用原位聚合法制备了微胶囊相变材料。
Microencapsulated phase change material was prepared by situ polymerization with butyl stearate as phase change material, melamine-formaldehyde resin as wall material.
它是采用复凝聚法,以稀禾定为芯材、以明胶和阿拉伯胶为壁材的缓释型微胶囊水悬剂。
The slow-release microcapsule water suspension agent uses the sethoxydim as core material by complex coacervation method and uses the gelatin and the arabic gum as wall material.
选用阿拉伯胶和麦芽糊精作微胶囊壁材,对喷雾干燥法制备杜仲籽油微胶囊的技术进行研究。
Using Arabic gum and malt dextrin as wall material of microcapsules, the microencapsulation technology of eucommia seed oil was studied in this work.
研究了喷雾干燥法制备高包埋率微胶囊化二丁基羟基甲苯(BHT)的壁材组成及工艺条件。
The composition of wall materials and the technology of spray -drying for the butylated hydroxy toluene (BHT) microencapsulation were studied.
用喷雾干燥法对奶油香精微胶囊化进行了研究,探索了工艺条件,对微胶囊壁材进行了选择。
This paper studies microencapsulation of cream essence by spray drying explores technological parametersand selects wall materials for microencapsulation.
以尿素-甲醛为壁材,四氯乙烯为芯材,通过两步原位聚合法和一步原位聚合法制备微胶囊。
Microcapsules were prepared through two-step and one-step in situ polymerization method, with urea-formaldehyde as wall material, and tetrachloroethylene as core material.
淀粉质原料作为微胶囊壁材之一,不仅资源丰富,来源广泛,而且还赋予产品优良质量性能。
Starch-based ingredient is one of the encapsulation agents, it has rich and extensive resources, it also brings the good quality to microencapsulations.
综述了常用的微胶囊制备方法,对几种微胶囊化方法的常用壁材、优缺点及其应用进行了比较。
The preparation methods of microcapsule were summarized and a comparison was made among common wall materials, advantages and disadvantages as well as applications of different preparation methods.
淀粉基原料作为微胶囊壁材之一,不仅资源丰富,来源广泛,而且还赋予产品优质的质量性能。
As one of wall materials of microcapsules, starch is not only a kind of abundant and widespread resources but also can make the product quality excellent.
以海藻酸钠为壁材、氯化钙为不变剂,应用挤压法胜利的制备出嗜酸乳杆菌-海藻酸钠微胶囊。
Sodium alginate as wall material, calcium chloride as the stabilizer, using successfully prepared by extrusion of Lactobacillus acidophilus - alginate microcapsules.
本文研究工作分为两部分,第一部分是用原位聚合法以脲醛树脂为壁材制备缓释型香精微胶囊。
Two parts were included in this study, Microencapsulation of rose perfume with urea-formaldehyde resin wall were prepared by in-situ method in the first part.
对番茄红素的提取工艺和以明胶与蔗糖作为壁材喷雾干燥制备番茄红素微胶囊的工艺进行了探讨。
Technique of lycopene extraction and microencapsulation in a wall system consisting of gelatin and sucrose by spray dring, and mass detection method of lycopene microencapsulation were outlined.
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