湿敏陶瓷

  • 网络humidity sensitive ceramics
湿敏陶瓷湿敏陶瓷
  1. TiO2基湿敏陶瓷是一类十分重要的湿敏陶瓷,应用十分广泛。

    TiO2-based humidity sensitive ceramics are very important and widely used .

  2. K2O-SnO2-LiZnVO4系湿敏陶瓷特性的研究

    Properties Study on Humidity Ceramic of K_2O-SnO_2-LiZnVO_4

  3. Zn2SnO4-LiZnVO4系湿敏陶瓷材料的研究

    Study on Zn_2SnO_4 - LiZnVO_4 Humidity - Sensitive Ceramics

  4. MgCr2O4&V2O5湿敏陶瓷的成分、组织和性能的研究

    Study on Composition Structure and Property of MgCr_2O_4-V_2O_5 Type Wet-sensitive Ceramic

  5. ZnCr2O4湿敏陶瓷工艺研究

    Study on Technology of ZnCr_2O_4 Humidity-sensitive Ceramic

  6. 用NMR和IR初步探讨了半导体湿敏陶瓷的湿敏机理。

    By NMR and IR , the sensing mechanism of the semiconductive humidity-sensitive ceramics was preliminarily studied .

  7. 湿敏陶瓷ZnCr2O4的NTC特性及机理探讨

    Study on the NTC Characteristic and Mechanism of ZnCr_2O_4 Humidity Ceramics

  8. TiO2-V2O5-K2O系湿敏陶瓷材料的改性研究

    The Study of Modification on TiO_2-V_2O_5-K_2O Series Humid-Sensing Ceramic Materials

  9. 钛掺杂的α-Fe2O3-K2O系纳米湿敏陶瓷的复阻抗谱

    Complex Impedance Spectroscopy of Humidity-Sensitive Ceramic System Doped-TiO_2 α - Fe_2O_3-K_2O

  10. SnO2-LiZnVO4系纳米湿敏陶瓷湿敏特性研究

    Study on humidity sensitive properties of SnO_2-LiZnVO_4 series nanometer ceramics

  11. SnO2-LiZnVO4系湿敏陶瓷烧结工艺与电性能关系的复阻抗分析

    Complex Impedance Analysis for the Relationship of Calcining Process and Sensing Properties of SnO_2-LiZnVO_4 Humidity Ceramic

  12. 在MgCr2O4-TiO2系湿敏陶瓷的基体中掺入V2O3杂质,改进了系统的电性能。

    The electrical property of the system was improved by introducing V_2O_5 as additive to the matrix of the MgCr_2O_4-TiO_2 humidity-sensitive ceramics .

  13. 掺杂MgCr2O4-TiO2系湿敏陶瓷的研究

    Study on Doped MgCr_2O_4-TiO_2 System Humidity-Sensitive Ceramics

  14. 实验表明:增加ZnO的含量,可提高湿敏陶瓷的线性度;加入Ca2+可提高湿敏陶瓷的机械强度,降低烧结温度。

    The experimental results give the fact that increasing ZnO ratio can improve the linearity of humidity sensitive ceramic and doping of Ca can raise mechanical strength and drop down the sintering temperature .

  15. 用复阻抗法分析MgCr-2O4-TiO2湿敏陶瓷感湿机理

    AC Complex Impedance Analysis of MgCr_2O_4-TiO_2 Ceramic Humidity Sensor

  16. 本文研究了ZrO2-MgO系湿敏陶瓷Zr/Mg比及添加剂对其湿阻性能的影响,摸索了有关配方和工艺。

    The effects of Zr / Mg ratio and additives on the humidity-resistance characteristics of the ZrO_2-MgO ceramics were studied . The batch compositions and the manufacturing technique were explored .

  17. 本文研究了以变位尖晶石Mg1-xKxFe2O4为主晶相的多孔性湿敏陶瓷材料的湿敏特性及加热清洗时的可逆性,并对其感湿机理进行讨论。

    Abstract This paper deals with the humidity sensitive performance and reversibility in heat cleaning of a porous ceramics with shift spinel ( Mg 1-x K xFe 2O 4 ) as main phase and also gives a discussion of its sensitive mechanism to humidity .

  18. 氧化铁基湿敏陶瓷材料性能的研究

    A Study on Properties of the Fe_2O_3-Base Moisture Sensitive Ceramics

  19. 湿敏陶瓷气孔率的控制方法

    The Feasible Methods of Controlling the Rate of Air Hole of Humidity Ceramic

  20. 温&湿敏陶瓷材料的研究

    Study on Temperature-Humidity Sensing Ceramic Materials

  21. 以石墨粉为造孔剂制成多孔湿敏陶瓷,可以提高湿敏元件的湿度灵敏度,并且有利于改进湿敏元件的长期稳定性。

    We found that sensitivity to humidity and long-term stability of the humidity sensor were improved obviously .

  22. 掺镧改性钛酸钡湿敏陶瓷元件

    Preparation Property and Structure of La ~ ( 3 + ) - doped Barium Titanate Humidity Sensing Ceramic Element

  23. 本文应用真空物理淀积方法制备了铬酸锌湿敏陶瓷簿膜元件,并测量和分析了其物理特性,得出了一些有益的结论。

    This paper introduced a method of making ceramic film using the physical vacuum deposition and it also tested and analysed its physical feature , and got some useful conclusion .

  24. 采用硬脂酸凝胶法这种化学新工艺制备了αFe2O3TiO2K2O复合氧化物纳米湿敏陶瓷元件;

    Composite oxide humidity-sensitive ceramics α Fe 2O 3 TiO 2 K 2O was prepared by stearic acid gel technology . The complex impedance of the prepared ceramic sensor was studied under different relative humidities .

  25. 硼掺杂对α-Fe2O3-K2O湿敏半导体陶瓷结构与性能的影响

    Effect of B_2O_3-doped on the Structure and Humidity-sensitive Properties of α - Fe_2O_3-K_2O-B_2O_3 Semiconducting Ceramics

  26. 湿敏功能陶瓷材料研究的进展

    The progress of the study on the functional ceramics as humidity sensor

  27. 湿敏半导体陶瓷阻–湿特性的研究

    Study on Resistance-humidity Characteristics of Humid-sensing Semiconductor Ceramic