carbonization process 中文意思是什麼

carbonization process 解釋
碳化過程
  • carbonization : n. 【化學】碳化(作用)。
  • process : n 1 進行,經過;過程,歷程;作用。 2 處置,方法,步驟;加工處理,工藝程序,工序;製作法。3 【攝影...
  1. Improvement of 20crni2mo gear carbonization process

    材料齒輪滲碳工藝改進
  2. This thesis reports some results on the hot press sintering of nano - composite wc - co powder, which is prepared by spray pyrogenation & continuous deoxidization and carbonization process

    本課題採用熱壓燒結技術對以噴霧熱解?連續還原碳化法制備的納米復合wc - co粉末進行了熱壓燒結研究。
  3. The microstructure of fly ash foamed concrete and the water resistance of magnesium oxychloride cement foamed concrete were analysed in virtue of sem method, at the same time, whose process to hydrate and carbonization resistance were analysed correspondly

    藉助sem測試手段對粉煤灰發泡混凝土的微觀結構和氯氧鎂水泥基發泡混凝土的耐水性進行了機理分析,同時對其水化過程及抗碳化性能也進行了相應的機理分析。
  4. The results showed that : there were five stages in the rising process of the internal temperature of untreated, fire - retardant solution soaked, and fire - proof paint coated wood during the fire ; the carbonization rate of wood decreased by 21. 1 % ~ 35. 6 % and the rising speed of internal temperature also declined greatly when wood was soaked in fire - retardant solution or coated with fireproof paint ; the carbonization rate of white pine was 8. 5 % ~ 17. 4 % higher than that of the northeast china ash ; for untreated wood, the carbonization rate in tangential direction was 5. 8 % ~ 10. 5 % higher than that in radial direction ; the internal temperature of wood varies with the developing direction of combustion

    結果表明:火災發生過程中未處理木材、阻燃浸漬處理和塗刷防火徐料木材內部溫度上升過程出現5個階段;經過阻燃浸漬處理和塗刷防火塗料后,木材的燃燒炭化速度降低了21 . 1 % ~ 35 . 6 % ,內部溫度上升速度大幅度下降;白皮松木材的燃燒炭化速度比水曲柳木材的燃燒炭化速度快8 . 5 % ~ 17 . 4 % ;未處理木材沿弦向的燃燒炭化速度比徑向快5 . 8 % ~ 10 . 5 % ;木材內部的溫度變化沿燃燒推進方向不同而不同。
  5. The quality of buffer layer and thin films was analyzed by afm, xrd, rheed and xps respectively. the effect of the experimental parameters such as carbonization time, working pressure, c source gas flow rate, carbonization temperature, different carbonization gas and substrate on the carbonization process was studied firstly. it was observed that the size of particles was increased with the increase of carbonization time and the rms was opposite, but the trend was reduced while the carbonization time was long enough ; the size of particles was increased with the increase of working pressure too, and choosing a proper working pressure could get a smooth surface ; the size of particles was unobviously changed while the gas flow rate was low, but it was notability increased with the increase of gas flow rate while the gas flow rate was high enough, and a smooth surface could be also obtained by choosing a proper gas flow rate ; with the increase of carbonization temperature, the size of particles was increased, the rms is decreased and a good single - crystalline carbonization layer could be obtained, but a rough surface was formed at a excessive high temperature ; the rms of

    對于碳化工藝,側重研究了碳化時間、反應室氣壓、 c源氣體的流量、碳化溫度以及不同種類的c源氣體、基片取向等因素對碳化層質量的影響,研究結果表明:隨著碳化時間的增長,碳化層的晶粒尺寸隨之變大,表面粗糙度隨之降低,但當碳化到一定時間之後,碳化反應減緩,碳化層的晶粒尺寸以及表面粗糙度的變化幅度變小;碳化層的晶粒尺寸隨反應室氣壓的升高而變大,適中的反應室氣壓可得到表面比較平整的碳化層;在c源氣體的流量相對較小時,碳化層的晶粒尺寸隨氣體流量的變化不明顯,但當氣體流量增大到一定程度時,碳化層的晶粒尺寸隨氣體流量的增大而明顯變大,同時,適中的氣體流量得到的碳化層表面粗糙度較低;碳化溫度較低時,碳化層的晶粒取向不明顯,隨著碳化溫度的升高,碳化層的晶粒尺寸明顯變大,且有微弱的單晶取向出現,但取向較差,同時,適中的碳化溫度可得到表面平整的碳化層;相比于c _ 2h _ 2 ,以ch _ 4作為c源氣體時得到的碳化層表面平整得多;比起si ( 100 ) ,選用si ( 111 )作為基片生長的碳化層的晶粒取向一致性明顯更好。
  6. Effects of placing time and carbonization time of lime white on dehydration process of calcium carbonate suspension

    石灰乳放置時間和碳化時間對碳酸鈣懸浮液脫水過程的影響
  7. By increasing the h2 dilution ratio, it is found that atomic hydrogen can selectively etch amorphous phase and stabilize crystalline phase. from the study on the distance from substrate to catalyzer, choosing a proper distance can ensure the gas fully decomposed, while a relatively low substrate temperature can cause the nanocrystalline particles to lose mobility and keep their sizes. the pre - carbonization process can enhance the nucleation density and make the growth of high quality nanocrystalline p - sic films much easier

    實驗結果表明:隨著工作氣壓的減小,薄膜的晶粒尺寸有所減小;通過提高氫氣稀釋度,利用原子氫在成膜過程中起的刻蝕作用,可以穩定結晶相併去除雜相;選擇適當的熱絲距離能保證反應氣體充分分解,又使襯底具有較高的過冷度,是形成納米薄膜的重要條件;採用分步碳化法可以提高形核密度,有利於獲得高質量的納米- sic薄膜;襯底施加負偏壓可以明顯提高襯底表面的基團的活性,因負偏壓產生的離子轟擊還能造成高的表面缺陷密度,形成更多的形核位置。
  8. The carbonization pressure influenced the mass transfer process of pyrolysis products and promoted the secondary reactions, while the activation pressure changed the adsorption equilibriums and reaction rates of the activation reaction

    加壓炭化影響了熱解產物的傳質過程,提高了發生二次反應的機會,而加壓活化能夠影響活化反應的吸附平衡和反應速率。
  9. The mechanism of storing lithium - ions was to store lithium ions in the micropores of the samples. since the micropores which formed in the process of liquid phase carbonization had different sizes, the smaller the micropores, the lower the potential to overcome the resistance for inserting lithium ions. the charging - discharging curves looked like the letter " v " and had no flat plateaus, the charging - discharging capacities were high but faded rapidly

    Htt _ ( max ) = 2000以前,石墨微晶尚未出現,貯鋰機制為「微孔貯鋰」 ;由於微孔的大小不同,插鋰時克服阻力所需的電位也不同,微孔愈小,所需電位愈低,因此充、放電曲線為「 v 」字形,無充、放電電位平臺,充、放電容量高,但容量衰減快;隨著htt _ ( max )的增大,液相炭化過程中所形成的微孔逐漸變小、變少,因此充、放電容量也逐漸變小。
  10. This article discuss several effecting factors about pan - base carbon fiber strength. we make emphasis on annlysis the influencing factors of polymerization pro - oxygen carbonization process

    摘要本文分析了碳纖維研發過程中對強度的影響因素。著重對原絲生產、預氧化過程、碳化過程中的主要影響因素分別進行了分析。
  11. Abstract : the effects of placing time and carbonization time of lime white on dehydration process of calcium carbonate suspension have been tested. the results indicate that the longer placing time and carbonization time are, the harder dehydration process of calcium carbonate suspension is, and that the effect of carbonization time is more remarkable than the effect of placing time

    文摘:測試了石灰乳放置時間和碳化時間對碳酸鈣懸浮液脫水過程的影響.結果表明,石灰乳放置時間和碳化時間越長,碳酸鈣懸浮液的脫水過程越困難,並且碳化時間的影響比放置時間的影響還要顯著
  12. Therefore, a new type of synthetic intelligent control system is developed by integrating expert system with fuzzy control based on fuzzy associative memory ( fam ), and can be used in the process of continuous carbonization precipitation

    針對這些問題提出了一種實時智能控制方案,將專家系統與基於模糊聯想記憶( fam )的模糊控制進行綜合決策,設計成一個集成環境的實時智能控制系統,並應用於碳酸化分解過程的進料流量控制中。
  13. Moreover, high quality nanocrystalline p - sic film was attained with the integration of the pre - carbonization process and the substrate bias effect

    進一步結合襯底預碳化以及對襯底的偏壓作用,得到了高質量的納米? sic薄膜。
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