最後添加劑 的英文怎麼說

中文拼音 [zuìhòutiānjiā]
最後添加劑 英文
finishing materials
  • : 副詞(表示某種屬性超過所有同類的人或事物) most; best; worst; first; very; least; above all; -est
  • : 動詞1. (增加) add; increase 2. [方言] (生小孩) give birth to
  • : Ⅰ名詞1 (藥劑; 制劑) a pharmaceutical or other chemical preparation 2 (某些有化學作用的物品) a...
  • 最後 : last; final; ultimate
  • 添加劑 : additive; additive agent; supplement
  • 添加 : increase; add; addition; adjunction
  1. A lot of experiments have been done in the process of exploiture soft packaging li - ion battery about how to choice the rational arts and crafts. the content include : how to deal with the collector, add how much pvdf in the material, how long the material need to stirring and the right viscidity, how much condubtivity agent the electrode need, what theckness is best, choice different collectors, the degree of dryness of the electrode, theckness of pressed model, how much electrolyte will be added, placement how long after added the electrolyte, system of formation how to influnce the battery, in formation the battery need or not need preesure from outside, how to vacuumize and the optimize matching positive pole and negative pole. with these practice make sure the parameter of the positive pole should less than 90 m ; according to different vacuumize order the conduc - tivity agent in anode will be 5mass % and 9mass %, respectively, and in cathode the data is 2mass % ; every 100mah added to 0. 4 ml electrolyte ; before formation the battery should be placement 8 hours and the system of formation must be less than 0. 01c before the voltage reach to 3. 0v ; should press in outside when battery in formation ; to these batteries which capacity more than 350mah the vacuum time not excess 15s ; the optimize matching positive pole and negative pole between 2. 10 : 1 and 2. 15 : 1. finally make out the battery which cycling performance and security are all very well

    液態軟包裝鋰離子電池的研究主要是對關鍵工藝進行了優化設計,具體包括:集流體的處理、 pvdf的入量、漿料攪拌時間和粘度、導電入量、電極膜的厚度、不同集流體的選擇、電極膜的乾燥程度、壓型的厚度、電解液的入量、注入電解液后靜置時間的長短、化成制度的影響、化成時電池所具有的壓力影響、抽真空的處理、正負極活性物質的匹配。確定出液態軟包裝鋰離子電池佳工藝參數:正極膜的厚度小於90 m ;根據化成時不同抽真空順序,確定正極膜中的導電入量分別為5mass %和9mass % ;負極膜中導電入量為2mass % ;電解液的入量為每100mah0 . 4ml ;化成前電池的靜置時間應當大於8h ;電池在3 . 0v之前採用小於0 . 01c的化成制度;在化成過程中應當施一定的外部壓力;對於350mah的電池抽真空的延時不應大於15s ;而正負極活性物質的質量比應當在2 . 1 : 1 2 . 15 : 1之間。
  2. The relation of absorption of nano - metal sols and the addition of dispersants, as well as the rule of absorption of nano - metal sol added by dispersants concomitant to placing time were systematically investigated by means of uv - vis. the results show that, the suitable dispersant to nano - iron / ethanol sol is 0. 035 % polyoxyethylene ( 10 ) lauryl ether ( op - 10 ), but in the case of nano - tungsten / ethanol sol, 0. 13 % neotelex maybe is of more benefit to its disperse stability. the observation of tem shows the best evidences

    Uv - vis法理論分析結果表明,對于納米鐵溶膠,0 . 035的非離子型表面活性十二烷醇聚氧乙烯醚可以達到良好的分散穩定性;而對于納米鎢溶膠,理想的分散則是0 . 13的陰離子表面活性十二烷基苯磺酸鈉,電鏡觀察結果完全證實了該推論,顯示5天的納米金屬溶膠仍然保持良好的分散狀況。
  3. A high strength resin basement material from synthesizing process of resin was obtained, then the appropriate additive was added into resin to promote performance of the resin, finally, a kind of high performance phenolic resin was gained

    從酚醛樹脂的合成工藝入手,獲得高強度的樹脂基體,然通過入適當對樹脂進行改性,終獲得了高性能的酚醛樹脂。
  4. Abstract : the tribology characters of rare earth used in high temperature were reviewed in this paper. the tribological characteristics of rare earth metals, inorganical rare earth compounds used as additives in high temperature lubricating were summarised. the application of rare earth alloy, rare earth high temperature ceramic and rare earth high temperature lubricating coating were briefly discussed. several research subjects of this filed were also suggested

    文摘:本文對稀土元素的高溫摩擦學特性研究發展進行了綜述與探討,主要討論了稀土金屬及稀土化合物作為高溫潤滑和潤滑的摩擦學特性,並對稀土在稀土合金、稀土高溫陶瓷和稀土高溫塗層中的應用進行了討論,提出了稀土在高溫潤滑研究中的幾個值得進一步深入研究的方向。
  5. The purity and composition uniformity were very high, and the specific surface area was 67 - 156 nm. in the third part, surface modification of sn - in2o3 nano particle was studied and some conclusions were drawn finally. kh560 and kh570 were selected as surface modification agents, and the concentration of them was 0. 5 - 1 wt %, and ph value was controlled for 5. 4, and the best milled technology were 72 hours

    本文第三部分,結合丙烯酸酷類單體,對sn一inz仇納米微粒進行表面修飾研究,得出選用kh一560和kh一570作表面修飾量為0 . 5一lwt %左右, ph值為5 . 4左右,採用球磨72小時,輔助超聲分散工藝時, sn一in20 :納米粉的分散性較好,且與基體有較好的相容性。
  6. After that, the thesis analyses the combined supply of materials and puts forward the stress on the managemant profit for various materials by using combination purchasing technique to combine the chemical materials purchasing by liaoyang chemical fiber corporation with determination of minor chemicals as low cost and low risk non - strategic materials, additives, agents as high cost, low risk and lever effect materials, tube oil and grease as low cost and high risk and critical materials and catalyst as high cost and strategic materials. finally, the thesis describes the chemical materials purchasing process management scheme for liaoyang chemical fiber corporation and put forward the characteristics of the new process management, the measures to ensure the performance, the analysis on the economic benefits of the new process management, and draws the conclusion

    再次,論文用采購組合技術,對遼化化工采購物資進行了組合,得出小化工類物資即為低成本、低風險的策略型物資,、助類物資即為高成本、低風險的杠桿型物資,潤滑油脂類物資即為低成本、高風險的關鍵型物資,催化類物資即為高成本、高風險的戰略型物資,論文對組合物資進行了分析,提出了各類物資的流程管理側重點。接下來,論文闡述了遼化公司化工采購物資新流程管理方案,提出了新流程管理的特點、保障措施,並對新流程管理進行了效益分析預測,得出了結論。
  7. The processing techniques to manufacture gap net polymer and gap fuel - rich propellant were determined by means of careful selections of curing parameter, proper curative and crosslinking agent, addition of stabilizer and etc. the mechanic property of gap propellant was modified by addition of chain extender. as a result, the gap fuel - rich propellant was developed. by means of dsc and pdta methods, the thermal decomposition characteristics of gap model fuel - rich propellant and its ingredients at both 0. 1 and 0. 5 mpa were investigated

    通過調節固化參數,選擇合適的固化和交聯體系,安定以及改進工藝步驟等方法,解決了gap預聚物及gap貧氧推進制備工藝中的關鍵技術;採用擴鏈的方法改善了gap貧氧推進的力學性能;研製出一個可實用的gap貧氧推進配方。
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