carbon gel 中文意思是什麼

carbon gel 解釋
炭黑凝膠
  • carbon : n. 1. 【化學】碳。2. 【電學】碳精棒[片、粉];碳精電極。3. (一張)復寫紙。4. 復寫的副本。
  • gel : n. 凍膠,凝膠(體);定型發膠。vi. (-ll-) 成凍膠,膠化。
  1. Silica pigment, benzene parazolone, oxalic acid catalyzer, accelerant, catalyst, deposit carbon powder, starch, paraacetaminophenetol - sulfonamide, sodiumpara - aminosalicylate ( pasna ), dalmato, p - thephalic acid, diethylbenzene - amine, titanium dioxide, acticarbon, sodium fluosilicate, fluorite, by - thiamine, silica gel powder, synthetic resin, sulfonic acid, polypropylene resin, aureomycin, pyrosodium silicate, gluchlorine acid coffee grounds, glucose, sodium sulfate, sulfide mineral, guound phosphate rock, bb, p. v. c.,

    M 、觸媒、沉澱炭粉、對乙酰氮基苯磺酰氨、對氨基水楊酸、哆耳瑪托、對苯二酸、二乙苯銨、二氧化鈦、活性碳、氟硅酸鈉、氟石礦、副產硫銨、硅膠粉未、合成樹脂、磷酸鈣、聚丙烯樹脂、金黴素、偏硅酸鈉、糠氯酸咖啡渣、口服葡萄糠、硫酸鈉、硫化礦、磷礦粉、蘭bb 、 p . v
  2. In comparison with sol - gel system catalyzed by potassium carbonate and sodium carbonate, the gel time was markedly shortened and the densities of the prepared carbon aerogels were obviously reduced

    相對以k _ 2co _ 3和na _ 2co _ 3為催化劑的凝膠體系,凝膠化時間大大縮短,所得氣凝膠密度降低。
  3. While still not evidenced in our experiment, liquid - phase doping of ammonium molybdate solution has been broadly agreed to be able to significantly increase the yield of swnts. we have developed another doping method, solid - phase doping of metal molybdenum at elevated temperature, and discovered that sol - gel prepared catalyst with such doping can be used to grow multi - wall carbon nanotube bundles in a very large scale

    對催化劑進行摻鉬處理表明,它可顯著提高催化劑催化裂解甲烷合成納米碳管的能力:作者在高溫下進行了催化劑摻入金屬鉬的實驗,得到了一種性能優異的催化劑,以此制備的多壁納米碳管的呈束狀分佈,所得的粗產物與催化劑之間的重量比達15倍以上。
  4. Standard test method for gel time of carbon fiber - epoxy prepreg

    碳纖維環氧樹脂預浸料坯凝固時間的標準試驗方法
  5. Sol - gel method is one of the novel effective methods to prepare those mesoporous materials through controlling the texture characteristics of both template and the carbon precursor

    溶膠凝膠法通過控制炭前驅體聚合物和模板物質分子網路結構同時生成,可以在一定程度上控制炭材料的最終結構,是制備中孔炭材料的新穎有效方法之一。
  6. Then we prepared na2fepo4f cathode material coated with carbon by solid - state reaction. as cathode material, the first discharge capacity is 111mah / g and the capacity reduces to 102. 1mah / g after 20 cycles. ultrafine na2fepo4f powders synthesized by a sol - gel process also shows a good electrochemical performance

    隨后採用在材料表面覆碳的方法對氟磷酸亞鐵鈉進行改性,結果表明當摻碳量為5 %時,電池的首次放電比容量為111mah / g ,第20次的放電比容量為102 . 1mah / g 。
  7. The development of research on perovskite materials doped with ions and particles, sol - gel technique and sol - gel processing of pbtio3 ( pt ) based materials were intensively reviewed. the luminescence theory of rare earth ions and the properties of carbon nanotube ( cnt ) were introduced briefly

    本文全面回顧了離子和微粒摻雜改性鈣鈦礦相鐵電材料的研究進展,總結了溶膠凝膠技術在制備此類材料中的應用,並簡要介紹了稀土離子發光機理和納米碳管的性能。
  8. It was shown that the gel time and rf carbon aerogels properties were mainly determined by the catalyst content ( r / cat ) and reactant concentration

    催化劑含量( r cat )和反應物濃度是影響凝膠化時間和氣凝膠性質的主要因素。
  9. The synthesis process of single - wall carbon nanotubes ( swnts ) by catalytically chemical vapor deposition ( ccvd ) was investigated and the product was characterized with transmission electron microscopy ( tem ), electron diffraction ( ed ), electron dispersive spectra ( eds ) and raman scattering spectra etc. pyrolysis of methane over solid catalysts prepared with impregnation, ion - adsorption precipitation, and sol - gel technique can all lead to the growth of swnts

    本文研究了單壁納米碳管的化學氣相沉積法( cvd )制備工藝,並運用透射電子顯微鏡( tem ) 、 x - ray能譜( eds )與喇曼( raman )光譜等分析手段,對產物及催化劑進行了表徵。採用浸漬法、吸附沉澱法與溶膠凝膠法等制備了催化劑,併合成了單壁納米碳管。
  10. While sol - gel technique was optimized, the yield of swnts was improved and the radial breathing mode ( rbm ) of them appeared in raman spectra. furthermore, we also achieved bulk production of multi - wall carbon nanaotube bundles. the experimental results indicated that the preparation of catalysts played a key role in the yield and quality of swnts

    優化了溶膠凝膠工藝,獲得了一種性能優良的催化劑,制備出了較高產量的單壁納米碳管, raman光譜低頻段明顯的單壁納米碳管的徑向呼吸模式( radialbreathingmode , rbm )特徵峰,進一步證實了這一結果。
  11. Carbon black gel complex

    炭黑凝膠復合體
  12. The main results are as follows : 1. ynthesize the carbon / nickel oxide compound aerogel by sol - gel. it becomes aerogel electrode through heating, aging, followed by supercritical drying from carbon dioxide and subsequent pyrolysis in an inert nitrogen atmosphere

    本文的主要研究內容歸納如下: 1 .採用sol - gel法合成碳/氧化鎳復合氣凝,經過丙酮置換、二氧化碳超臨界乾燥、炭化等過程製成復合碳氣凝膠電極。
  13. The application of nano powder in conductive antistatic materials is introduced, including nano conductive powder, nano conductive vapor gel, nano conductive wave absorbent, carbon nanotube, nano conductive fiber, nano superconductor and nano inorganic / organic composite conductive materials

    介紹了納米粉體在導電抗靜電材料中的應用,包括納米導電粉體、納米導電氣凝膠、納米吸波導電材料、碳納米管、納米導電纖維材料、納米超導材料,以及納米無機有機復合導電材料等。
  14. Dry ice frozen carbon dioxide and gel refrigerants are the most common types of shipping coolants refrigerants

    乾冰凍結的二氧化碳及凝膠致冷劑是托運最常用的冷卻劑致冷劑種類。
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