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Title page for etd-0712105-190816


URN etd-0712105-190816 Statistics This thesis had been viewed 2870 times. Download 4062 times.
Author Ching-Yueh Nien
Author's Email Address s7332316@pchome.com.tw
Department Materials Engineering
Year 2004 Semester 2
Degree Master Type of Document Master's Thesis
Language zh-TW.Big5 Chinese Page Count 96
Title The effect of preparation conditions on the electrical properties of Ni-Mn Thermistor
Keyword
  • Thermistor
  • Coprecipitation
  • Negative Temperature Coefficient
  • spinel
  • spinel
  • Negative Temperature Coefficient
  • Coprecipitation
  • Thermistor
  • Abstract In this study, the (Mn,Ni)3O4 spinel ceramics were investigated as NTC elements. The temperature depending properties, such as resistance and the coefficient of temperature were examined. The experiment were conducted to utilize coprecipitation to prepare the precursor powder by several combination of sintering process with various temperatures and atmospheres to study the variation following of physical properties.
      The activation of Ni0.8Mn2.2O4 sintering at 1200℃ in nitrogen and argon is 3963.84 and 3945.436 respectively which is higher than those sintering in air (3853.357 ) and in oxygen (3740.487 ). When the samples were under the inert gas sintering, the electron jump activation and resistance were high. When the samples were under the oxygen atmosphere sintering, the resistance was decrease and electron jump activation was low. The ΔR/R of Ni0.8Mn2.2O4 increased with age time and the best resistivity stability is sintering at 1200℃ in air(ΔR/R =0.07% , 0.12% , 0.09%).
      When Ni0.66Mn2.34O4 and Ni0.8Mn2.2O4 sintered in nitrogen and argon, the resistivity of the samples became higher with the segregation of NiO. The samples sintered in oxygen atmosphere could avoid the segregation of NiO and the single phase with spinel structure is obtained.
    Advisor Committee
  • Hur-Lon Lin - advisor
  • Yi Hu - advisor
  • Chih-Wen Hsieh - co-chair
  • Files indicate access worldwide
    Date of Defense 2005-07-04 Date of Submission 2005-07-12


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