軸向速度減小 的英文怎麼說

中文拼音 [zhóuxiàngjiǎnxiǎo]
軸向速度減小 英文
axial-velocity decay
  • : 軸Ⅰ名詞1. (圓柱形的零件) axle; shaft 2. (對稱部分的直線) axis 3. (圓柱形的纏繞器物) roller; spool Ⅱ量詞(用於纏在軸上的線以及裝裱帶軸子的字畫)
  • : Ⅰ形容詞(迅速; 快) fast; rapid; quick; speedy Ⅱ名詞1 (速度) speed; velocity 2 (姓氏) a surna...
  • : 度動詞[書面語] (推測; 估計) surmise; estimate
  • : Ⅰ形容詞1 (體積、面積、數量、強度等不大) small; little; petty; minor 2 (年紀小的; 年幼的) youn...
  • 速度 : 1. [物理學] velocity; speed; blast; bat 2. [音樂] tempo3. (快慢的程度) speed; rate; pace; tempo
  1. This dissertation focuses on the integration technology in the magnetic bearing system including permanent magnet biased axial - radial magnetic bearing, bearingless induction motor, novel switching amplifier used in mb and robust control of mb

    電磁承集成技術是目前磁承高電機領域研究的熱點。該技術對于提高系統的可靠性、轉子和體積,改善高電機的動態性能具有獨特的作用。
  2. The results show that, when increasing the feed rate of the grinding wheel, decreasing the rotating speed of the wafer chuck table and using coarser grit grinding wheel, the material removal rate in the wafer rotating grinding increase, the feed rate of the grinding wheel has greater influence on the material removal rate ; when suitably increasing the rotating speed of the grinding wheel, decreasing the feed rate of the grinding wheel and using finer grit grinding wheel, the wafer surface roughness can be reduced ; there exists a critical rotating speed of the grinding wheel ( about 2300rpm ), beyond which the material removal rate evidently decreases and the spindle motor current and wafer surface roughness steeply increase ; when the grit size of the grinding wheel is finer than # 2000, the material removal rate decreases and the wafer surface roughness has no obvious improvement

    研究結果表明,增大砂輪進給工件轉,採用粗粒砂輪有利於提高磨削矽片的材料去除率,砂輪進給對材料去除率的影響最為顯著;適當增大砂輪轉砂輪進給,採用細粒砂輪可以磨削表面粗糙;在其它條件一定的情況下,砂輪超過一定值會導致材料去除率,主電機電流急劇增大,表面粗糙變差;採用比# 2000粒更細的砂輪磨削時,材料去除率,矽片表面粗糙沒有明顯改善。
  3. 2 % 22 % and 29 % respectively less than using other three knives at cutting speed of 500mm / min when the moisture contents of rootstalks was 48. 2 %. the cutting forces were tested at four different parts of rootstalk that were the middle part along a radius, the tip part along a radius, the middle part along axis and the stalk part along a radius, and the force at the middle along a radius is the largest and increase 32 % 45 % 111 %, respectively more than at the other three parts. the force increase 37 % to cut the rootstalks from the areas one crop a year more than that from two crops a year

    試驗結果表明,根茬含水率愈高,剪切力愈,根茬含水率與剪切力近似為二次曲線關系;刀片剪切愈快,剪切力愈;凸曲線、斜線、凹曲線和直線四種不同的刀刃曲線對整株根茬剪切力依此由到大,凸曲線和斜線剪切時有一定程的滑切作用,所以剪切力相比較,當根茬含水率為48 . 2 ,剪切500mm min時,與其他三種曲線相比凸曲線型刀刃的剪切力依次分別少了7 . 2 、 22和29 ;對根茬中部、梢部和根部的剪切力,在相同試驗條件下,徑中部最大,比梢部,根部和根部莖稈所需剪切力分別增加32 、 45和111 ;當含水率為48 . 2 ,刀片的剪切為500mm min時,一年一熟玉米根茬比一年兩熟的玉米根茬剪切力增大37 。
  4. ( 2 ) with f varying, there exists a number fr which is about - 1 ( curvature, torsion and dean number have little influence on fr ), when f > fr, the maximum of the axial velocity is near the outside bent and the friction factor ratio increases with f increasing ; when f < fr, the maximum is near the inner side bent and the ratio increases with f decreasing ; when f = fr, the distributions of the axial velocity are similar to those of poiseuille flow and the friction ratio is about 1

    ( 2 )當f變化時,存在確定的數值fr ( fr在- 1左右。曲率、撓率和dean數對fr的影響很) ,當f fr時,最大值偏外側,摩擦系數比隨f增大而增大;當f fr時,最大值偏內側,摩擦系數比隨f而增大;當f = fr時,的分佈和poiseuille流近似相同,摩擦系數比約為1 。
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