界面聚合 的英文怎麼說

中文拼音 [jièmiàn]
界面聚合 英文
interfacial polymerization
  • : 名詞1 (相交的地方; 劃分的界限) boundary 2 (一定的范圍) scope; extent 3 (按職業、工作或性別等...
  • : Ⅰ名詞1 (頭的前部; 臉) face 2 (物體的表面) surface; top 3 (外露的一層或正面) outside; the ri...
  • : 動詞(聚集; 聚積) assemble; gather; get together
  • : 合量詞(容量單位) ge, a unit of dry measure for grain (=1 decilitre)
  • 界面 : [物理化學] interface; boundary; limiting surface
  • 聚合 : 1 (聚集到一起) get together2 [化學] (單體結合成高分子化合物) polymerization; polymerize 3 [生...
  1. Capsule calcium hydroxide was synthesised by that phenol - formaldehyde resin in situ encapsulated calcium hydroxide. the thermal stability and mechanical properties of pvc mixed samples was studied

    摘要採用界面聚合法制備了膠囊化氫氧化鈣,並探討其在pvc中的分散性和相容性。
  2. The present work indicates the organic nf membranes and the inorganic nf membranes all have shortages, so develop composite nf membranes that have low cost, mechanically strong and thermally / chemically - resistant, easy to cleanout and good performances is a very important task. in this paper, the preparation of inorganic - organic composite nf membranes were presented. this composite comprise a porous sio2 / al2o3 support substrate, the pore diameters of which ranging from 10 to 15 nm, this inorganic support substrate having a polymer membrane which comprises an polyvinyl alcohol ( pva ) or polyamide ( pa ) densely deposited on at least one of the face surfaces thereof, the structural porosity of such pva and pa membrane ranging from 3 to 5 nm

    本論文以開發無機?有機復納濾膜為出發點,首先在al _ 2o _ 3多孔微濾膜上利用溶膠?凝膠法制備sio _ 2 al _ 2o _ 3無機復超濾膜作為無機?有機復納濾膜的基膜;選用乙烯醇和酰胺為表功能層材料,分別探討了以羥基丁二酸和磺基水楊酸為混交聯劑,採用浸塗法制備了乙烯醇sio _ 2 ? al _ 2o _ 3復納濾膜;以均苯二甲酰氯、哌嗪和二胺為單體,採用界面聚合法制備了酰胺sio _ 2 ? al _ 2o _ 3復納濾膜,並對影響膜性能的諸多因素進行系統研究。
  3. The study conducted research on the following four fields : firstly, the characteristics of the interfacial polymerization system of piperazine aqueous solution / trimesoyl hexane solution were systematically investigated. the results show that at a certain molar ratio between the two monomers, piperazine and trimesoyl, at the two phase interface, a dense functional layer of ultra low pressure, high permeating flux and high salt rejection formed by controlling the time of interfacial polymerization, such as the composite membrane ( i ), the concentration in water phase is 0. 4 %, and 0. 1 % in organic phase, and the polymerization time is 1 minute

    本文主要進行了四個方的研究,首先系統分析和研究了哌嗪水溶液均苯三甲酰氯正己烷溶液界面聚合體系特徵、界面聚合反應中各影響因素對膜性能的影響等,結果發現,當處兩相單體(哌嗪和酰氯)分子摩爾比為某一比值時,通過控制界面聚合時間(有機相處理時間) ,可以形成超低壓高通量高脫鹽的緻密功能層,如復膜( ) ,水相濃度為0 . 4 ,有機相濃度為0 . 1 ,時間1min 。
  4. It set up the development of the world recognized high performance nanofiltration composite membrane of aromatic polyamide, on the basis of reviewing the development, the importance in the membrane separation technology, the classification, the fabrication technique and the current development of the research and the application of the nanofiltration membrane. polysulfone was chosen as the material for making the porous substrate because of its excellent compress - to - denseness resistance, its cheap price and its great availability. by fabricating an ultra thin polyamide functional layer on the polysulfone substrate through interfacial polymerization taking piperazine as the monomer in aqueous phase and trimesoyl chloride as the monomer in organic phase, high performance nanofiltration composite membranes of ultra low pressure and ultra high permeating flux were prepared

    選擇耐壓密性能優良,價廉易得的碸材料為制備復膜基膜材料,哌嗪為水相單體,均苯三甲酰氯為有機相單體,通過界面聚合反應在基膜表形成超薄功能層,制備了超低壓高通量哌嗪均苯三甲酰胺碸納濾復膜,以0 . 1 mgso _ 4溶液為測試液,所得高脫鹽平板復膜( )在0 . 4mpa下,脫鹽率為96 . 1 ,通量達85 . 2l
  5. Pdmaema can be cross - linked by quaternization to develop a positively charged dense network structure. according this mechanism, pdmaema / psf positively charged nanofiltration membrane was developed by interfacial polymerization using psf plate macrofiltration membrane as support layer, pre - polymer of pdmaema water solution as coating solution, p - xylylene dichloride / heptane as cross - linking agent

    根據這一機理,以psf平板微孔膜為基膜, pdmaema預物水溶液為塗層液,以對二氯芐正庚烷溶液為交聯劑,採用界面聚合法制備了pdmaema psf荷正電復納濾膜。
  6. Pamps / pvdf hollow - fiber gel composite membrane was prepared through interfacial polymerization

    採用界面聚合法制備pamps pvdf中空纖維凝膠復膜。
  7. The synthesis of modified polyolefin which grafted polar groups , effects on interfacial adhesion of glassfiber reinforced polyolefin composite systerm and applications in glass fiber sizing were introduced in this paper

    本文介紹了接枝極性基團的改性烯烴的成及其對玻璃纖維增強烯烴復體系的影響以及在玻璃纖維浸潤劑配方中的應用。
  8. The development in the adhesion between the polymer cords such as rayon, nylon, polyester, and aramid, to rubbers were reviewed from aspects of adhesion test and analysis, fiber and adhesives interface, dipped cord and rubber interface and the mechanical properties of resorcinol formaldehyde latex adhesives

    摘要從測試與分析方法、纖維與粘劑的、浸膠簾線與橡膠的粘、間苯二酚甲醛膠乳浸膠層的物理機械性能等方總結了人造絲、尼龍、酯和芳香酰胺等物簾線與橡膠的粘方法及最新進展。
  9. For this purpose, 2, 5 - diaminobenzene sulphonic acid ( dabsa ) [ c6h3 ( nh2 ) 2so3h ] can be selected as one monomer of ip reaction. the other monomer can be trimesoyl chloride ( tmc ) [ c6h3 ( coc1 ) 3 ]. in order to introduce the cationic group into membrane, 4 - ( chloromethyl ) benzoyl chloride ( cmbc ) [ ch2c1c6h4 ( coc1 ) ] could be added into organic phase ( tmc ) and used for chemical modification after ip process based on the reaction between 4 - ( chloromethyl ) benzoyl chloride and trimethylamine ( tma )

    為了引入陽離子交換基團,本文採用2 , 5 -二胺基苯磺酸作為界面聚合的無機相單體;為了引入陰離子交換基團,在均苯三甲酰氯有機相單體中加入一定量的4 -氯甲基苯酰氯,並考慮在無機相中加入適量的乙烯亞胺( pei )以增加其正荷電性。
  10. 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。
  11. 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,通過界面聚合成了一種新型硫脲微膠囊,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。
  12. After interfacial polymerization, the module was filled with a 10 % ( wt. % ) aqueous trimethylamine solution and kept for 24 hours to convert the chloromethylated groups into cationic quaternary ammonium groups

    界面聚合反應完成後,將膜浸入濃度為10的三甲胺溶液鄭州大學碩士學位論文中,通過化學修飾將其氯甲基基團轉化成陽離子季胺鹽基團。
  13. The objective of this study is to develop a novel technique for preparing asymmetric mosaic membrane by introducing both the negative charged and the positive charged groups into the selective layer of interfacial polymerization ( ip )

    為此,本文將重點研究通過界面聚合方法,在超濾膜支撐體上復很薄的選擇層,並使其具有荷電鑲嵌膜的結構和特徵。
  14. By means of scanning electronic microscope, i have done some observation and researches on the scattering property of wollastonite in polypropylene and the cohesive property between wollastonite and polypropylene

    應用掃描電子顯微鏡對改性硅灰石在丙烯中的分散性及其與丙烯的性進行了觀察和研究。
  15. Considered its terminating effect on interfacial polymerization reaction, the quantity of 4 - ( chloromethyl ) benzoyl chloride should be limited to some extent. for the ip process investigated, n - dodecane and water can be used as solvents for dabsa and tmc solutions, respectively

    界面聚合過程中,分別以正十二烷和水作為有機相和無機相單體的溶劑,以十二烷基硫酸鈉( sds )作為表活性劑。
  16. This was due to three reasons : ( 1 ) baso4 particles were rigid inorganic particles, which could hinder the retraction of polymer molecules and decreased the elasticity. ( 2 ) a bad compatibility between baso4 and tpu, small interface adhesive force and the phase interface ready to separate. ( 3 ) during high content of baso4, the tenacity of filament mainly depended on tpu, so that the strength decreased with the content of tpu in filament down

    這是因為: baso _ 4屬于剛性粒子,阻礙tpu大分子鏈的回縮,降低了纖維的彈性; baso _ 4與tpu相容性極差,共混時容易形成相力小,受外力作用時相與相間容易發生分離,使纖維的力學性能下降; baso _ 4在高含量下,纖維強度主要由物的力學性能決定,隨著baso4含量的增加, tpu所佔比例下降,從而在宏觀上表現出纖維的力學性能下降。
  17. Applications of interfacial polymerization in preparation of materials

    界面聚合技術在材料制備中的應用
  18. The development of interfacial polymerization and its application in the preparation of membrane, microcapsule, nanomaterial and polyester was reviewed

    摘要綜述了界面聚合的發展過程及其在膜、微膠囊、納米材料、酯等制備方的應用進展。
  19. This paper was studied by using interfacial polymerization to produce the photochromic dyes microcapsules, which were made from urea and melamine polymer as shell, photochromic dyes as core and toluene as solvent

    摘要本研究以界面聚合法制備光可變色性染料微膠囊,以尿素、美耐明為殼物質,光可變色性染料為核物質,甲苯為溶劑。
  20. Some surfactants and additives might be needed to control the process

    為了促進界面聚合反應,加入氫氧化鈉和碳酸鈉作為酸受體。
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