粉碎拌合機 的英文怎麼說

中文拼音 [fěnsuìbàn]
粉碎拌合機 英文
pulverizing mixer
  • : 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...
  • : 動詞[書面語] (觸; 撞) strike; bump
  • : 動詞(攙和) stir and mix
  • : 合量詞(容量單位) ge, a unit of dry measure for grain (=1 decilitre)
  • : machineengine
  • 粉碎 : 1 (使失敗、毀滅) smash; shatter; crush 2 (破碎) broken to pieces; pulverize; shred; shiver 3 ...
  1. This machine is mostly used for rubber has been comminuted with glue water whipping and middling, and pass foaming shapes up template, through oil press system having it beenpressed homologized demand density reprocessed foam rubber

    主要用於將已經的泡綿與膠水攪,再經過發泡成型模,經油壓系統壓成相應要求密度的再生泡綿。
  2. Seven stars colloid mill principle of work full sound of something astir grinding pan tooth profile incline relative motion but becomes, high speed revolves, another static causes the material to receive the enormous shearing force and the friction force through tooth profile incline between material, at the same time and so on under the complex strength function causes the material for the fluid ultramicron smashing, the emulsification, the disperser, isotropically at the high frequency vibration and the high speed whirlpool, to stir and so on the function, may replace and surpass the stone mill, the sand blast machine, the ball mill, the breast is uniform machine, cuts the mulser, three rollers machine, organizes working efficiency and so on the stamp mill

    七星膠體磨工作原理充分動靜磨盤齒形斜面的相對運動而成,其中一個高速旋轉,另一個靜止使物料通過齒形斜面之間的物料受到極大的剪切力和摩擦力,同時又在高頻震動和高速旋渦等復雜力的作用下使物料為流體超微粒、乳化、分散、均質、攪、混等多種功能,可代替並優于石磨,砂磨、球磨、乳勻、剪切乳化、三輥、組織搗等工作效率。
  3. This kind of mixer is ideal equipment which deals with powder, dye materials, cake, etc. by crushing, mixing

    該混是一處供粒、染料、塊狀等多種組份物料進行高速、混、低速攪的理想設備。
  4. The behaviors of several inorganic nanoparticles ( sio2, al2o3, tio2 ) under ultrasonic irradiation, such as dispersion, crushing and activation, were studied. tem, ftir, spectrophotometry characterized the morphology, structure and dispersion stability of nanoparticles respectively. the results show that the inorganic nanoparticles in the aqueous solution can redisperse more effectively through ultrasonic irradiation than by conventional stirring, which was the basis for monomers to polymerize on the surface of nanoparticles

    研究了超聲輻照下多種納米粒子( sio _ 2 、 al _ 2o _ 3 、 tio _ 2 )在水體系中的分散、及活化等各種行為,採用tem 、 ftir 、分光光度法等對納米粒子的形態、結構、分散穩定性進行了表徵,證明超聲輻照比常規攪更有效地實現無納米粒子在液相中的分散,為單體在納米粒子表面的聚創造了條件。
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