膠囊壁 的英文怎麼說

中文拼音 [jiāonáng]
膠囊壁 英文
capsule wall
  • : Ⅰ名詞1 (某些具有黏性的物質) glue; gum 2 (橡膠) rubber 3 (姓氏) a surname Ⅱ動詞(用膠粘) st...
  • : 囊名詞1. (口袋) bag; pocket; sack; purse 2. (像口袋的東西) anything shaped like a bag 1. (姓氏) a surname
  • : 名詞1 (墻) wall (of a house etc ) : 銅墻鐵壁 bastion of iron2 (作用像圍墻的部分) wall of st...
  • 膠囊 : cachet; capsule; collocystis; encapsulant; gelatin capsule; rubber bag; kaps-膠囊素 capsumin
  1. 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?阿拉伯樹材料的復凝聚法對配製的顯色示溫混合液晶進行了微化處理,並著重討論了阿拉伯樹的濃度及用量對液晶微粒度及顯色效果的影響。
  2. Cell - wall polysaccharides and pectic substances contained in the vesicles eontribute to growth of the new wall and middle lamella inside the sac

    小泡中所含的細胞多糖和果狀物質對新細胞的生長和泡中間層的形成有重要的作用。
  3. Influence of weiantai capsule on the micro - circulation in gastric folds of rats with precancerous lesion of gastric cancer

    胃安泰對胃癌前期病變大鼠胃微循環的影響
  4. Study on the polymer materials of biopesticides microcapsules

    生物農藥微膠囊壁材料研究
  5. 8. 1 - octadecanol also affects slightly the heat of micropcm phase transition, but it easily induces microcapsules with mf resin as the shell to occur conglomeration. for the microcapsules with about 9 % 1 - octadecanol in the core, their super - cooling can al

    11 、加有環己烷的相變材料可以進行高溫熱處理,熱處理溫度應控制在160 ~ 180之間,熱處理時間為30 ~ 60min為宜,此時,產生預留膨脹空間,發生交聯。
  6. 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 、材滴加速度小於0 . 5ml ? min ~ ( - 1 )且系統調節劑為芯材的30 40時微的粒徑分佈集中; dsc顯示微包覆相變材料不影響其相變點,相變儲熱明顯。
  7. There are still knowledge gaps between fabrication and properties of nano - and microencapsulated phase change materials. the present research has investigated improving their thermal stability and preventing them from super - cooling in order to fabricate micropcms and nanopcms with higher performances. micropcms and nanopcms were synthesized by encapsulating n - octadecane and the other components within the melamine - formaldehyde ( abbr

    本項研究以三聚氰胺樹脂為,正十八烷為芯,通過原位聚合法制備相變材料微以及納,並通過sem 、 dsc 、 tg - dta 、 xrd 、 ftir 、 gc等分析測試手段對這些性能進行了系統研究和分析。
  8. Also make the pcm have a long - life. micropcms has been used in functional fiber, solar energy utilize, heat energy transfers, agriculture, and building materials

    本文採用微技術,以不同包覆方法制備了不同材的相變儲熱微,並對其性能進行了研究。
  9. The objective of this study was to synthesize microcapsules containing a composite phase change materials for application in indoor wall controlling temperature, which would save energy and make comfort indoors. three microcapsulation methods have been applied to preparation micropcms

    採用復合凝聚法,以明-阿拉伯樹材,在水相體系中通過控制ph值和物料比,制得相變儲熱微
  10. 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-阿拉伯樹材制備的相變儲熱微平均粒徑均勻;材完整,包覆效果較好;熱分析顯示,相變儲熱微具有自調溫功能,但明-阿拉伯樹材的微熱穩定性較差。
  11. The shell thick is linear with the average diameter of capsules while the weight proportion of the shell to the core is constant. the shell thick decreases with the increase of the stirring rate

    芯比例固定的條件下,厚度與粒徑呈線性關系,且隨轉速增加而減小。
  12. 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材沒有熱效應的微,用熔融熱和結晶熱能夠計算出微材含量和厚度。
  13. Senzhibao sign lingzhi broken - down wall spore powder sumbroken - down wall spore powderthe capsule obtains the national food drugs surveillance administrative bureau separately

    :森芝寶牌靈芝破孢子粉和破孢子粉分別取得國家食品藥品監督管理局
  14. The thickness obtained from the phase change heat is consistent with the one obtained from the optic microscope

    用相變熱得到的微材厚度與顯微鏡測得的微材厚度相一致。
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