microcapsule 中文意思是什麼
microcapsule
解釋
微劑-
The cholesteryl liquid crystal mixture was microcapsulized by complex coacervation method using gelatin and acacia as membrane materials. the effects of the concentr ation and quantity of arabic gum on the microcapsule particle size and color showing were also studied
最後,採用以明膠?阿拉伯樹膠為囊壁材料的復凝聚法對配製的顯色示溫混合液晶進行了微膠囊化處理,並著重討論了阿拉伯樹膠的濃度及用量對液晶微膠囊粒度及顯色效果的影響。 -
Study on living lactic acid bacteria by making microcapsule
飲料中乳酸菌包埋的研究 -
Preparation of limonene essence microcapsule
檸檬油香精微膠囊的研製 -
Last, polyurea microcapsule containing octadecane as phase change material was successfully synthesized by interfacial polycondensation using tdi and deta as shell monomers in an emulsion only by reaction of tdi and deta, but also reaction of tdi and amines which are formed by hydrolysis of tdi at the interface
制備聚脲樹脂微膠囊的過程不僅包括tdi和deta的反應,還包括tdi與自身水解產物的界面反應。 tdi與deta反應質量比為3 : 1 。另外, np - 10還與tdi反應生成脲烷。 -
Development of ps coated epoxy resin microcapsule
聚苯乙烯包覆環氧樹脂微膠囊的研製 -
Research on the preparation of chitosan - artemisiaargyllem oil microcapsule anti - bacterial agent by monophase coagulation
艾蒿油微膠囊抗菌劑的研究 -
During making microcapsule by interfacial polymerization process, the effects of the agitation speed, dispersant dosage on the size and distribution of microcapsule particle diameter were investigated
摘要研究了界面聚合法制備微膠囊阻燃劑時,分散劑用量、攪拌速度等因素對微膠囊粒徑大小及分佈的影響規律。 -
A novel polyester thioure microcapsule was prepared using interracial polymerization with 1, 4 - benzenedicarbonyl diisothiocyanate and o - phenylenediamine. the influence of emulsifying agent, stirring speed and drug content on microcapsule performance were investigated
摘要以對苯二甲酰異硫氰酸酯與鄰苯二胺為原料,通過界面聚合法合成了一種新型聚硫脲微膠囊,考察了攪拌速率、乳化劑用量、投藥量等因素對微膠囊粒徑及釋放性能的影響。 -
All three products can be used to encapsulate microorganism and cells grew well in different microcapsules prepared in three nacss. in the second pard of this paper, we studied nacs - pdmdaac microcapsule to culture bacillus subtilis which can produce nattokinase
通過對不同規模下制得的硫酸纖維素鈉產品在理化性質、制備微膠囊及在微囊化培養等方面對比較,表明研製過程有利於合成出高質量的硫酸纖維素鈉,用於制備微膠囊。 -
The three production ways of microcapsule, blend spinning and composite spin - fling for aromatic fiber were demostrated
討論了芳香型纖維的加工方法,有微膠囊法、共混紡絲法和復合紡絲法。 -
Preparation of epoxide resin phase change microcapsule and its application in alginate fiber
環氧樹脂型相變微膠囊的制備及其在海藻纖維中的應用 -
A study of pesticide microcapsule preparation
原位聚合法制備農藥微膠囊劑的研究 -
Studies on techniques of econazole nitrate microcapsule
硝酸益康唑微囊化技術研究 -
Double - shell heat energy storage microcapsule was prepared used the prosperities of microcapsules were investigated. a phase change material as core, which melt point was 24 c and phase transition heat was 225. 5j / g. the microcapsules would been used in indoor wall to regulate the temperature and saving energy sources. the surface morphological structure was examined by means of scanning electron microscopy
其中當乳化速度為2500r min 、乳化時間大於5min 、壁材滴加速度小於0 . 5ml ? min ~ ( - 1 )且系統調節劑為芯材的30 40時微膠囊的粒徑分佈集中; dsc顯示微膠囊包覆相變材料不影響其相變點,相變儲熱明顯。 -
Microcapsule technology and application prospects of microbial pesticide
微生物農藥微膠囊技術及其應用前景 -
All the results show that the sa / cs - cacl2 / pmcg microcapsule has good biocompatibility
表明該微膠囊具有較好的生物培養效果。 -
Study on the factors influencing the particle size and distribution of rose perfume microcapsule
香精微膠囊粒徑及其分佈的影響因素研究 -
Study on the preparation and performance of the microcapsule phase change material for cool storage
微膠囊相變蓄冷材料的制備及其性能研究 -
The gelation with complete cooling time of 40min had a high yields and encapsulation efficiency, and the process may be contrplled. the micropcms was stable and its diameter was uniformity. the thermal profile of microcapsule was not affected by the ratio of gelation, but the thermal was not good enough
結果表明:以明膠-阿拉伯樹膠為壁材制備的相變儲熱微膠囊平均粒徑均勻;壁材完整,包覆效果較好;熱分析顯示,相變儲熱微膠囊具有自調溫功能,但明膠-阿拉伯樹膠為壁材的微膠囊熱穩定性較差。 -
The result shows that the content and the thickness of the microcapsule wall can be obtained by using the melting heat or the crystallization heat analysis in case that the wall materials is no heat effect in the temperature range of phase change of the core materials
實驗表明:對于在芯材發生相變的溫度區間內壁材沒有熱效應的微膠囊,用熔融熱和結晶熱能夠計算出微膠囊的壁材含量和厚度。
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