均勻分散 的英文怎麼說

中文拼音 [jūnyúnfēnsǎn]
均勻分散 英文
homodisperse
  • : Ⅰ形容詞(均勻) equal; even Ⅱ副詞(都; 全) without exception; all
  • : Ⅰ形容詞(均勻) even Ⅱ動詞1. (使均勻) even up; divide evenly 2. (分出一部分) spare
  • : 分Ⅰ名詞1. (成分) component 2. (職責和權利的限度) what is within one's duty or rights Ⅱ同 「份」Ⅲ動詞[書面語] (料想) judge
  • : 散動詞1. (由聚集而分離) break up; disperse 2. (散布) distribute; disseminate; give out 3. (排除) dispel; let out
  1. The function mechanism of homogenizing - dispersing agent in nr / br / sbr was researched

    摘要研究了nr / br / sbr三元共混體系中均勻分散劑的作用機理。
  2. The co - p alloy coating of powder was more and thickness of plate was incrassate with the decreasing of the loading

    裝載量在1 10g / l之間,可以實現納米氮化硅粉末的完全包覆,得到鍍覆性較好的復合粉末。
  3. Owing to penetration, absorption, and internal lubrication, the homogenizing - dispersing agent filled in rubber compound reduced the difference of viscosity, polarity, surface tension in dissimilar rubbers, and accelerated interfusion, dispersing, homogeneous mixing

    由於均勻分散劑的滲透、吸附及內潤滑作用,減小了不同橡膠間粘度、極性和表面張力的差別,達到了快速融合、、摻混的效果。
  4. Firstly, the surface characteristic of polystyrene particle is changed from water detesting to water intimity by using special techniques and admixtures so mat the compound quality with inorganic materials is insured. secondly, the contradiction between the weight and strength is solved through optimizing the particle size and using composite fiber and the best heat conductivity is achieved under the condition that the necessary strength is met. in the research process, the author solved the problem of fiber dispersing in insulating materials so that the contraction of the material is controlled

    課題研究中,首先採用特殊的改性工藝及外加劑實現對聚苯乙烯顆粒表面的成功改性,使其表面由憎水轉化為完全親水,確保與無機材料的復合質量;其次,通過採用優化骨料級配及使用復合纖維等措施解決了保溫材料的輕質與強度的矛盾,使保溫材料在滿足必要的強度的前提下,導熱系數降至最小;並且,課題研究中成功解決了纖維在保溫材料中均勻分散的問題,達到了抑制保溫材料收縮的目的;最後,通過採用復合外加劑、合適的膠凝材料及合理的配比等措施確保該保溫材料具有良好的和易性,滿足施工的要求。
  5. The particle size can be controlled by adjusting processing conditions such as milling time, rotating speed of milling pan, static pressure between milling pans and milling temperature, etc. average article size of the powder reduced to micrometer scale in relatively short time and a fraction of which even reached nano scale

    利用聚丙烯和尼龍6之間約60oc的熔點差,在200oc左右加ippch6復合粉體,可以使pa6保持固體超細粒子狀態, pp則熔融成為連續相,得到了pa6超細粒子均勻分散的ppch6共混體系。
  6. The disperse degree of the ceramic can greatly affect uniformity of the composite, which limit the poling voltage and affect the piezoelectricity. in this paper, the relationships among constitutes, microstructures, dielectric and piezoelectric properties were calculated by employing the banno unit cell mode ; pzt ceramic were synthesized by the hydrothermal method and the appropriate solution was selected according the adsorption of pvdf on the ceramic particle surface ; then, relationships between the disperse degree and the fabrication process were studied. base on these, the pzt / pvdf composites intermingled some pan were prepared and the microstructures were investigated

    論文首先利用bannounitcell模型,計算了pzt pvdf壓電復合材料的組成、結構、與其壓電和介電等性能之間的關系;針對壓電復合材料存在的均勻分散性差的缺點,選用水熱法制備的粒度的pzt陶瓷粉末,並採用溶液混和法與聚合物pvdf進行復合,重點研究了不同工藝條件下陶瓷的均勻分散性及其與材料微觀結構之間的關系。
  7. When sno2 wt % was controlled for 10 %, the square resistance of sn - in2o3 was minimum. through the characterization of in2o3 / sno2 nano powders, some conclusions were drawn : sno2 nano powder is rutile structure, and in2o3 and sn - in2o3 nano powders are cubic structure. in2o3 / sno2 nano powders were well dispersing with spherical uniform grain, and the mean grain was 4 - 50 nm

    通過對inzo3 / snoz納米粉體表徵,得出inzo3 / snoz納米粒子多呈球形、顆粒性良好、組、純度較高、平粒徑在4一50lun左右、比表面積達67一156mz / g ; snoz納米粉為正四面體金紅石結構, inzo3和sn一inzo3納米粉為體心立方結構。
  8. The result of transmission electron microscope ( tem ) showed that layers of layered silicates were exfoliated and dispersed in matrix homogeneously. according to statistical data, average thickness of layers was lonm, and the thickness of the biggest layers was less than 40nm, only a few layers were exfoliated in monolayer whose thickness was about inm

    透射電子顯微鏡( tem )照片顯示:層狀硅酸鹽片層發生剝離,片層均勻分散在nbr基體中,統計表明片層的平厚度約為10nm ,最大的聚集體的片層厚度達到40nm ,推斷有一小部片層剝離成單晶層的形式,厚度為1nm 。
  9. The omt after its suspension treated with ultrasonic wave was inserted with poly ( styrene - butyl acrylate ) emulsion. xrd test found the layers of omt particles were dispersed partly in the composite ; extraction experiment of nano - omt / pba - st composite indicated a great amount of macromolecule has inserted into the interlayer of omt. dta analysis showed the decompose temperature of composite has improved by 73 at 4 % omt

    將omt的水懸浮液經超聲波處理,與苯丙乳液復合, omt p ( ba - st )復合物的萃取和xrd試驗證明乳液的大子已經大量嵌入omt層間,使大部omt以納米級均勻分散於苯丙乳液之中; dta析結果說明添加4 omt苯丙復合材料的解溫度升高了73 。
  10. With the method of adding nano - particles during extracting stage, dry uhmwpe gel fiber dispersed with nano - particles is prepared, after multi - step hot drawing, modified uhmwpe fibers are prepared

    採用萃取加入的方式製成了納米粒子均勻分散的uhm認甲e干凍膠纖維,然後經過多級熱拉伸,製成納米粒子改性uhm從甲e纖維。
  11. In this article the chelating precipitation method and the converting precipitation method were chosed to synthesis zno nanoparticles on the basis of the theory of synthesis of nanoparticles by precipitation. uniform and dispersed zno nanoparticles were prepared by the two methods because zn2 + of conformation crystal was flee slowly and the supersaturation was well controlled. the problem which zno nanoparticles are wide size and agglomerative was solved

    本文根據相沉澱法合成納米粒子的原理,採用絡合沉澱法和沉澱轉化法合成納米氧化鋅。這兩種方法利用溶液中的構晶陽離子zn ~ ( 2 + ) ,緩慢地釋放出來,有效地控制了溶液中的過飽和度,可以得到粒徑的納米氧化鋅,解決現有制備工藝中納米氧化鋅粒徑佈寬、易團聚的問題。
  12. The cladding of composite powder was of higher uniformity and dispersion with the increase of the concentration of nah2p02 ? h20 ( 20 ~ 40g / l ) and cos04 ( 18 ~ 40g / l ). when the bath loading is lower than 10g / l, the metal covered was full and composite powder was thin and disperse well

    使用酒石酸鉀鈉作絡合劑時,其濃度在120 135g / l范圍內,使用檸檬酸鈉作絡合劑時,其濃度在40 65之間,可以得到鍍覆性好的復合粉末。
  13. Morphological structure analysis indicates that the addition of pe - mah induces surface tension, makes phases uniformity, enhances bonding strength of interface and improves compatible property

    Sem析表明,接枝物的加入,降低了界面間的表面張力,使兩相度提高,增強了相間的粘接力,改善了尼龍11與聚乙烯的相容性。
  14. In this thesis, as a new method of fabrication metal composites, directed reaction of molten metal ( casting process ) makes the particles - reinforced phase, the product of chemical reaction in the metal or alloy, be distributed homogenously in the matrix

    本研究提出了一種制各al _ 2o _ 3 cu復合材料的新型方法? ?熔體直接反應法(熔鑄法) ,它是通過金屬液或合金液中發生化學反應生成增強相顆粒,並使之均勻分散於基體之中。
  15. The objective of the paper is to get nano sisn ^ co composite powder of high quality by electroless plating at normal temperature. the rules were researched that the composition of electroless plating solution and reaction condition had an influence on the reaction of electroless plating of nano - si3n4 with ultrasonic wave. the best composition of electroless plating solution was obtained

    本文以常溫化學鍍法制備高質量的納米氮化硅?鈷磷復合粉末為目標,研究鍍液組及其工藝參數對納米氮化硅超聲波化學鍍鈷的影響規律,得到了納米氮化硅超聲波化學鍍的優化配方,制得了鍍層性好的納米復合粉末。
  16. The particle size of the product is about 16 nm with perfect crystal structure. the product exhibits superparamagnetism and strong magnetic responsivity, the saturation magnetization being 55. 4emu / g and the magnetic susceptibility being 8. 28 10 - 3emu / oe. the particle size distribution is homogeneous with good dispersion. 2

    產物具有完美的晶體結構,粒徑約16nm ,比飽和磁化強度為55 . 4emu g ,磁化率為8 . 28 10 ~ ( - 3 ) emu oe ,磁響應性強,具有超順磁性,剩磁和矯頑力為零,粒徑性良好。
  17. Tem images revealed that a carbon encapsulated core / shell structure was formed in the composites, which could ensure good dispersion of carbon nanoparticles within pmma matrix

    透射電鏡結果表明納米碳可與聚甲基丙烯酸甲酯形成核殼結構,使得納米碳均勻分散於聚合物基體中。
  18. Preparation and uv shielding of homogeneous dispersion nanometer tio

    均勻分散納米二氧化鈦的制備及其紫外線屏蔽性能
  19. In addition, the effective combination technologies of ultrasonic, microwave, alternating current deposition, supercritical fluid drying with traditional liquid methods is the most promising one to prepare high purity, small size and well - proportioned dispersing nano - particles

    而超聲技術、微波輻射技術、交流電沉積技術、超臨界流體乾燥技術、非水溶劑水熱技術等新技術與傳統液相法的有機結合,是制備高純度、小粒徑、均勻分散的金屬氧化物納米粉體的最有前途的方法。
  20. A group of new composite antimicrobials were prepared by blending and absorbing, in which zinc oxide whisker is the main active ingredient, with nano - zinc oxide and nano - titanic oxide as the ancillary ones

    摘要以四針狀氧化鋅晶須為主要活性成,配以氧化鋅和氧化鈦納米,並用吸附的辦法使納米材料均勻分散,制備了一種新型復合抗菌劑。
分享友人
分享到 Line

分享到臉書