居里

jū lǐ
  • Curie;Ci;village
居里居里
居里 [jū lǐ]
  • (1) [village]∶居住的乡里

  • (2) [curie]∶物质的放射性强度的单位,一居里等于一克镭衰变成氡的放射强度。这个单位是为了纪念波兰科学家居里夫人而定的

居里[jū lǐ]
  1. 专家们称老师必须集爱因斯坦、居里夫人和林弗德·克里斯蒂的本领于一身,才能帮助孩子们掌握新的国家课程大纲。

    Experts claimed that teachers had to be Einstein , Marie Curie and Linford Christie rolled into one to help children grasp the new national curriculum

  2. 居里夫人告诫初学者不要图快。

    Madame Curie warned learners not to go too fast .

  3. 居里夫人是世界上唯一有名的女科学家。

    Madame Curie was the only famous woman scientist in the world .

  4. 镭是由居里夫人发现的。

    Radium is discovered by Madame Curie .

  5. C高;高居里点压电陶瓷材料研究进展

    Development of High Courier Point Piezoelectric Ceramic

  6. FeSiB系非晶态合金的居里温度探讨

    Investigation on the Curie temperature of amorphous Fe-Si-B system alloys

  7. 居里温度随Co含量增大而降低;

    The ordering temperature decreases monotonously with increasing Co content .

  8. 3d过渡金属掺杂GaAs的居里温度研究

    The research of Curie temperature for GaAs doped with 3d transition metal

  9. 纳米金属Ni的饱和磁化强度和居里温度的尺寸依赖效应

    Size-dependent saturation magnetization and Curie temperature of nanocrystalline nickel

  10. 随Si含量增加,化合物的居里温度和Co原子平均磁矩单调减少。

    The Curie temperature and the Co moment are strongly decreased with increasing Si concentration .

  11. 非晶态Fe(100-x)Bx合金中化学短程有序对居里温度的影响

    The Influence of Chemical Short-Range Order on Curie Temperature in Amorphous , Fe_ ( 100-x ) B_x Alloy

  12. 其中Mn原子的替代使合金的居里温度随Mn含量的增加而单调降低。

    The Curie temperature of alloys decreasing as the content of Mn increased .

  13. 最大εr温度点Tm(居里温度)稍微移向高温。

    The Cure temperature , Tm for maximum ε r , moved to higher temperature .

  14. Co主要进入四方相,提高合金的居里点,降低磁感可逆温度系数。

    Cobalt atoms enter in the tetragonal phase , increasing Curie temperature and decreasing the reversible temperature coefficient .

  15. PTC(Positivetemperaturecoefficient)热敏电阻器的失效率随确定的PTC材料的居里点Tc升高而增加。

    The failure rate of PTC ( Positive Temperature Coefficient ) thermistor increases with Curie Point ( T_c ) of determined PTC material .

  16. 稀土元素Gd对Co/Pt多层膜居里温度的影响

    Curie Temperature Dependence on Addition of Gd for Co / Pt Multilayers

  17. 测量温度在零磁场下测定的居里温度(Tc)以上;

    The measurement temperature should be higher than the Curie temperature measured without applied magnetic field ;

  18. 测定胃、小肠、大肠和盲肠的微居里(μci)数。

    Radioactivity (μ ci ) per stomach , small intestine , large intestine and caecum was detected .

  19. 所得ESR信号显示,在居里温度附近温区,顺磁相中存在着铁磁团簇,铁磁相中也存在顺磁成分。

    ESR signals reflect a coexistence of ferromagnetic and paramagnetic regions around Curie temperature .

  20. 低居里点突变型PTC材料的研究

    On a Sudden-changing PTC Material with Low Curie Point

  21. 在大于居里点温度Tc(138℃)时表现出良好的PTC效应。

    Good PTC characters were shown above Curie point ( T c , 138 ℃) .

  22. 随着Fe含量的减少,样品的居里温度上升,但是其磁化强度和最大磁熵变值减小。

    The Curie temperature is increased , while the magnetization and the maximum magnetic entropy changes are decreased with reducing Fe concentration .

  23. Co、Cu、Si的加入还有助于Pr-Fe-B合金居里温度的提高。

    The addition of Co , Cu and Si can also raise Curie temperature of Pr-Fe-B .

  24. Dy2AlFe(16-x)Mnx化合物的饱和磁化强度和居里温度

    Saturation magnetization and curie temperature of Dy_2AlFe_ ( 16-x ) Mn_x compounds

  25. 其还是一种互溶性较好的钙钛矿铁电材料,其居里点温度Tc可较容易地调至室温附近,介电温度系数较大,是一种非常适用于电场调节元件的材料。

    Because of the expedient modulation of curie temperature Tc to room temperature , the larger dielectric-temperature coefficients , PST materials are favorable to be used in microwave tunable devices .

  26. 高居里温度PTC陶瓷制备过程中铅的挥发与控制

    The volatility and control of lead during the manufacture procedure of high curie-point PTC ceramics

  27. 三种原子对Ge原子的替代,使得平均Mn原子磁矩下降,但居里温度没有明显的变化。

    The average Mn magnetic moment decreases and the Curie temperature remains almost unchanged by the substitution of M for Ge .

  28. 因此,在实现广泛应用的过程中遇到的最大难题是如何有效的从本质上提高稀磁半导体的铁磁居里温度(Tc)。

    Thus , the most difficult challenge of DMS as practical device is how to substantially increase the ferromagnetic Curie temperature .

  29. 低电阻率高居里点PTCR材料的研究

    Study on PTCR Material of High Curie Point and Low Resistivity

  30. 输电线路除冰新技术&低居里(LC)磁热线在线路除冰中的应用

    A New Deicing Method & Application of a Magnetic Material Wire with Low Curie Point in the Deicing of Transmission Lines