氣相沉積法 的英文怎麼說

中文拼音 [xiāngchén]
氣相沉積法 英文
mcvd
  • : Ⅰ名詞1 (氣體) gas 2 (空氣) air 3 (氣息) breath 4 (自然界冷熱陰晴等現象) weather 5 (氣味...
  • : 相Ⅰ名詞1 (相貌; 外貌) looks; appearance 2 (坐、立等的姿態) bearing; posture 3 [物理學] (相位...
  • : Ⅰ動詞1 (沉沒; 墜落) sink 2 (沉下 多指抽象事物) keep down; lower 3 [方言] (停止) rest Ⅱ形容...
  • : Ⅰ動詞(積累) amass; store up; accumulate Ⅱ形容詞(長時間積累下來的) long standing; long pending...
  • : Ⅰ名詞1 (由國家制定或認可的行為規則的總稱) law 2 (方法; 方式) way; method; mode; means 3 (標...
  • 氣相 : gas phase
  • 沉積 : [地] deposit; sedimentation; deposition; precipitation
  1. Chemical vaporous depositon

    化學氣相沉積法
  2. Physical vaporous deosition

    物理氣相沉積法
  3. Oriented growth of diamond film on si via plasma enhanced hot filament chemical vapor deposition

    等離子體增強熱絲化學氣相沉積法生長取向金剛石薄膜
  4. The coating nano - metal materials are prepared by physical adsorption, surface deposition, arc discharge, plasma polymerization, laser cvd and emulsion polymerization

    其制備方主要有物理吸附、表面、電弧放電、等離子體聚合、激光化學氣相沉積法、乳液聚合等。
  5. Boron - doped silicon nanowires grown by plasma - enhanced chemical vapor deposition

    等離子體增強化學氣相沉積法實現硅納米線摻硼
  6. However, the limitation of large - scale production and the high cost have restrained the development of the research on their application. comparing to arc discharge and laser ablation, chemical vapor deposition ( cvd ) is the most possible method with large - scale, low - cost and high - yield advantage to fabricate swnts

    對電弧與激光蒸發,化學氣相沉積法( cvd )是最有望實現大批量、低成本、高產率制備swnts的方,因此已成為其制備方研究領域的熱點。
  7. And so on, the method of cvd and pvd were also discussed. through the theoretical calculation and experimental results, the distance between the diaphragm and the base plate was optimize, which will touch in case of over loading

    另外也對化學氣相沉積法( cvd)和物理氣相沉積法( pvd) (包括其中的濺射)進行了探討。
  8. Using nano - iron and nano - tungsten as catalyzers, we try to produce carbon nanotube or nanostring by cvd and pla. the results show that one - dimension carbon nanomaterials can be successfully obtained by cvd only based quartz module

    在上述研究的基礎上,採用鐵、鎢兩種納米金屬作為催化劑,運用化學氣相沉積法和激光轟擊原位生成嘗試合成碳納米管與納米線。
  9. The applications field of fgm include aerospace, electron, chemistry, biology and medicine fields ; the composition change also from metal / ceramic to metal / metal, metal / alloy, non - metal / non - metal and non - metal / ceramic. moreover, various methods including powder metallurgy, self - propagating high - temperature synthesis ( shs ), chemical and physical vapor deposition ( cvd and pvd ), electrodeposition, laser cladding method, plasma sputtering and sol - gel method have been studed. metal organic chemical vapor deposition ( mocvd ), using chemical vapor deposition of metal organic compounds, is an effective method for acquiring special function materials and membrane

    功能梯度材料是21世紀最有發展前景的新型材料之一,其用途已由原來的宇航工業,擴大到核能源、電子、化學、生物醫學等領域;其組成也由金屬?陶瓷發展成為金屬?金屬、金屬?合金、非金屬?非金屬、非金屬?陶瓷等多種組合;其制備方主要包括粉末冶金,自蔓延高溫合成( shs ) 、氣相沉積法( cvd和pvd ) 、電,激光熔覆,溶膠?凝膠( sol - gel )等。
  10. The effect of their diamters on the electrochemical stability of cnts is investigated and cnts with the diameter between 10 ~ 20 nm ( d1020 ) show the most strong resistance to electrochemical oxidation among all the investigated cnts

    研究了化學氣相沉積法制備的不同直徑碳納米管的抗電化學氧化性。在所有研究的cnt中,直徑介於10 ~ 20nm的cnt ( d1020 )的抗電化學氧化性最強。
  11. The research and application of the diamond films were reviewed in this paper, and the nucleations on different substrates in hfcvd ( i lot filament chemical vapor deposition ) system were introduced. the improvement of the diamond nucleation on si, ni, cu was investigated, in order to deposit diamond of high density. the p - n junction between b - implanted diamond films and n - type si substrate was investigated

    本論文簡要敘述了金剛石薄膜的研製進展和應用,介紹了用化學氣相沉積法( hotfilamentchemicalvapordeposition )在不同的襯底上的金剛石薄膜的制備方和形核,並對si 、 ni 、 cu三種不同的襯底的金剛石膜研究了如何增大形核密度、提高形核質量。
  12. 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、吸附與溶膠凝膠等制備了催化劑,併合成了單壁納米碳管。
  13. The synthesis process of swnts by catalytic chemical vapor deposition ( ccvd ) was investigated and the product was characterized by transmission electron microscopy ( tem ), thermo - gravimetric analysis ( tga ) and raman scattering spectra and so on in this thesis

    本文研究了單壁納米碳管的化學氣相沉積法制備工藝,並運用透射電子顯微鏡( tem ) 、熱重分析( tga )與拉曼( raman )光譜等分析手段,對產物及催化劑進行了表徵。
  14. To enlarge the application areas of the nano - structured materials, such as applications in magnetic recording media, the well - aligned carbon nano - structures encapsulating with magnetic catalyst particles were successfully synthesized on si wafer by ecr - cvd method with ch4 and h2 as gas sources

    為了增加奈米結構材料之應用?圍,例如製作磁記憶媒體,本研究以觸媒輔助電子?旋共振化學氣相沉積法( ecr - cvd )利用ch4及h2為反應源,于矽基材上成功的合成鑲埋有磁性顆粒的碳奈米材料。
  15. Cv chemical vapor deposition cv equipment

    化學氣相沉積法設備
  16. Cvd chemical vapor deposition equipment

    化學氣相沉積法設備
  17. The multiwalled carbon nanotube array was fabricated by chemical vapor deposition ( cvd ) in the template of porous alumina in the presence of a catalyst such as cobalt and the carbonaceous source of c2h2

    以多孔氧化鋁為模板,金屬鈷為催化劑,乙炔為碳源,通過化學氣相沉積法制備出多壁碳納米管陣列。
  18. The main contents in this paper were as follows : 1. cnts were synthesized by chemical vapor deposition ( cvd ) method, the mechanism of cnts growth was analyzed

    主要內容為以下幾個方面: 1 .本文通過化學氣相沉積法制備了碳納米管,分析了碳納米管的生長機理。
  19. Third, the fabrication of hollow fibers with sic films has been done with chemical vapor deposition ( cvd ), and the power - transmitting properties of the above samples have been obtained with an austar 360 ftir spectrometer and kyky - 2800 sem. the kind of fiber has a 950um inner diameter and 3m length, and its transmitting loss is about 0. 7db / m which can be suitable for many applications

    利用化學氣相沉積法( cvd )初步完成了具有sic內膜的空芯傳能光纖的制備,使用auastar360ir - ft紅外光譜儀、 kyky - 2800型掃描電鏡等先進儀器對樣品進行分析研究,所研製的孔徑為950微米、長3米的sic sio _ 2空芯傳能光纖,傳輸損耗約為0 . 7db m ,為進一步提高光纖性能打下了良好的基礎。
  20. The growth of carbon nanotubes at low temperature was studied by thermal chemical vapor deposition and plasma chemical vapor deposition methods

    本論文分別以化學氣相沉積法及電漿輔助化學氣相沉積法探討于低溫下合成奈米碳管。
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