critical temperature 中文意思是什麼

critical temperature 解釋
【物理學】臨界溫度。

  • critical : adj 1 批判的,批評的;(在某方面)有鑒定力的 (in)。2 吹毛求疵的;愛挑剔別人的 (of about)。3 ...
  • temperature : n. 1. 溫度,氣溫。2. 體溫。3. 〈口語〉發燒,高燒。
  1. These materials become quite soft and flexible above critical temperature.

    這些材料在臨界溫度以上變得十分柔軟和易於彎曲。
  2. Judgments concerning the location of fruit orchards are based upon critical temperature.

    有關果樹園址的設置是根據臨界氣溫來判定的。
  3. Judgement concerning the location of fruit orchards are based on critical temperature.

    有關果樹園址的設置是根據關鍵的氣溫來判定的。
  4. The lower limit of temperature at which this occurs is known as the softening point or critical temperature.

    呈現這一性質的溫度下限稱為軟化點或臨界溫度。
  5. Critical temperature coefficient thermistor

    臨界溫度系數熱敏電阻器
  6. The critical temperature is about 530

    這一臨界溫度約為530 。
  7. Ctr - critical temperature resistor

    臨界溫度電阻器
  8. Critical temperature thermistor

    臨界溫度熱敏電阻器
  9. Critical temperature resistor

    臨界溫度電阻器
  10. Critical temperature and the thermo - sensitive phase of pingxiang dominant genic male sterile rice

    萍鄉顯性核不育水稻臨界溫度值及其溫度敏感期的研究
  11. There was a critical temperature tm between 1200 ~ 1215. above the tm the relationship between the temperature and the extent of reaction of cu2o and al, which would react completely by keeping the time of holding temperature longer or rising temperature higher, is of liner relation. 3

    Cu _ 2o與al的反應存在一個臨界溫度,這個臨界溫度為1200 1215之間的某一溫度t _ m ,高於t _ m ,熔液溫度的提高與cu _ 2o與al的反應進行的程度呈線性關系,並且延長保溫時間或者繼續升高反應溫度最終都能使反應完全。
  12. Energetic materials for defense - safety, vulnerability - cook - off critical temperature

    國防用高能材料.安全性易損性.自燃的臨界溫度
  13. A special critical parameter method was used to derive the approximate expression of the second upto sixth virial coefficient at critical temperature

    3採用一種特殊的臨界參數法導出了第二至第六維里系數在臨界溫度下的近似表達式。
  14. The critical temperature difference ( a tc ) of u m / submicrom composite is higher 100c than that of monolith

    M亞m復合的氧化鋁陶瓷的tc (熱震臨界溫差)為300 ,比單相的高100 。
  15. The experimental results show that water jet impingement induces higher heat flux, higher critical temperature and narrower transition temperature range

    水冷實驗數據分析結果表明:射流能提高熱流密度和臨界溫度,縮小過渡區溫度區間。
  16. In this thesis, we use the random - matrix - theory to revise the following calculating methods : ( 1 ) the heat capacity and the spin susceptibility of the normal metallic small particles ; ( 2 ) the heat capacity of the conventional metallic small particles at the low temperature using the mean field approximation method ; ( 3 ) the heat capacity of the conventional metallic small particles at the vicinity of the critical temperature using the static path approximation method

    本文採用隨機矩陣理論,計算了: ( 1 )正常態金屬小粒子的電子熱容和順磁磁化率。 ( 2 )在平均場近似下,計算了超導金屬小粒子低溫區的電子熱容。 ( 3 )在靜態路徑近似下,計算了超導金屬小粒子轉變溫區的電子熱容。
  17. In the second part, the deduced self - energy in 63 theory is derived at hard thermal loop approximation. then we calculate the effective mass and damping rate, and also show that there is thermal instability above a critical temperature tc

    在此基礎上,出自能實部和虛部與一些介質效應的對應關系式,進而求得了粒子的有效質量和衰變率,並討論了_ 6 ~ 3理論的熱不穩定性。
  18. And then, we specially study the effect of spin interaction ' s anisotropy on the critical temperature tc. from what we have observed we suggest that the critical temperatur tc grows as the anisotropy intensifies, while the system magnetization becomes weaker. the system becomes id if the anisotropy ratio r goes to infinity, and its equilibrium state keeps zero magnetization at any finite temperature, which confirm that there is no observable transition for id system

    其後,著重研究了自旋相互作用的各向異性程度r對其臨界溫度t _ c的影響,總結出:隨著系統各向異性程度的增強,系統的臨界溫度向高溫轉移,而系統的磁化強度在不斷的減弱;當r趨近於無窮大時,系統演變為一維系統,系統在任何有限溫度下達到的平衡態始終保持磁化強度為零,這也證實了一維系統不發生相變
  19. The dc electric resistance test method for the critical temperature tc of a yba2cu3o7 - superconducting thin film

    釔鋇銅氧123相超導薄膜臨界溫度tc的直流電阻試驗方法
  20. Results show that the levitation force is generated between the high temperature superconductor and the magnetic field under the critical temperature. the value of the levitation force is determined by the temperature and the gradient of magnetic field. that is the smaller of the gap, the larger of the levitation force when the temperature is fixed, and the value of the levitation force is an exponential function of the gap

    研究表明,當高溫超導體的溫度低於其臨界溫度時,在磁場中開始受到力的作用;受到的懸浮力大小由溫度和磁場梯度共同決定;即溫度一定時,懸浮間距越小,對應的磁場梯度越大,懸浮力就越大,力的大小與懸浮間距成指數關系;而當懸浮間距一定時,溫度越低,對應的懸浮力也越大,且超導體剛進入超導態的一段溫度區間懸浮力增大最快。
分享友人
分享到 Line

分享到臉書