細粉磁鐵 的英文怎麼說

中文拼音 [fěntiě]
細粉磁鐵 英文
fine iron powder magnet
  • : 形容詞1 (條狀物橫剖面小) thin; slender 2 (顆粒小) in small particles; fine 3 (音量小) thin ...
  • : Ⅰ名詞1 (粉末) powder 2 (用澱粉製成的粉條或粉絲) noodles or vermicelli made from bean potato o...
  • : 名詞1. [物理學] (磁性; 能吸引鐵、鎳等的性質) magnetism 2. (瓷) porcelain; china
  • : Ⅰ名詞1 (金屬元素) iron (fe) 2 (指刀槍等) arms; weapon 3 (姓氏) a surname Ⅱ形容詞1 (形容...
  • 磁鐵 : [物理學] magnet; ferromagnet; magnetic-iron
  1. Edge of the granule image by video is the key of its image partition, the article tries to carry through a deeper research on image partition at the same time. granule is made up of savageness mater and industry material ( including of rock, sand, earth, atomy, steel, china, concrete, ink powder, magnetism powder, light fine and tiny powder used silicon, cell etc. )

    顆粒是構成天然物質和工業材料(巖石、礦石、沙子、泥土、塵埃、鋼、陶瓷、水泥、墨、光纖和料封裝材用高純硅微胞等)的基本單元,顆粒尺寸(粒度)是顆粒的首要特徵和體材料的第一指標。
  2. The raw materials, the composition, the time of milling, the calcining temperature, the different additives, the sintering temperature and the sintering parameters were investigated. the result showed : it was advantaged to obtain high initial permeability mnzn ferrite with stable frequency characteristic using high - purity raw materials ; in order to obtain mnzn ferrite with high properties, we must control strictly the composition ; it could improve the properties of mnzn ferrite by optimizing calcining temperature. the lower calcining temperature made the permeability higher, and the higher calcining temperature could promote the frequency characteristic of permeability ; we chosen the right time of milling according to the requirement of power diameter ; in order to improve the properties of mnzn ferrite, it is necessary to add effective additives. in this dissertation, the influence of bi2o3 、 moo3 、 k2co3 、 co2o3 were investigated ; the sintering temperature, the time of heat - retaining and sintering parameters were the key factors of preparing high permeability mnzn ferrites

    研究結果表明:採用高純度的fe2o3有利於獲得高起始導率且頻率特性優良的氧體;為了制備所需性能的氧體,需要嚴格控制配方中各種原材料的含量,優化配方;由於體活性受預燒條件的影響,所以對不同要求的氧體選擇的預燒條件就不一樣,適當降低預燒溫度有利於獲得較高的起始導率,而為了獲得良好的頻率特性可以適當地提高預燒溫度;根據對體顆粒粒徑的不同需求,可以選擇不同的球磨時間;而有效的添加劑是改善材料性能的必要條件,本文在添加劑的研究中主要對bi2o3 、 moo3 、 k2co3 、 co2o3的影響分別作了詳地討論;燒結溫度、保溫時間和燒結氣氛是高導率mnzn氧體制備最關鍵的工藝,適宜的燒結工藝可以獲得理想微結構和組成,從而得到高性能的氧體材料;而從材料的微結構上來看,要提高材料的截止頻率,就要適當地化晶粒、增加晶粒內部的氣孔。
  3. In this thesis, the fabrication technique of the high silicon - iron strips near to 6. 5wt. % si by the direct powder rolling ( dpr ) technique were studied. the reaction mechanism between the iron and silicon powders was clarified

    本論文詳的研究了利用末軋製法制備高硅硅合金帶材(約含6 . 5wt .硅)的制備工藝過程,解釋了在熱處理過程中的反應機理,通過控制合理的加工制備參數,最終制備得到了高硅硅合金帶材,並對其性能進行了表徵。
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