Materials Research Express (Jan 2023)

The silver paste containing ZnO-B2O3-SiO2 glass sintered at high temperature with low solid content formed high performance conductive thick film on MgTiO3 microwave ceramics

  • Yun Chuan Liu,
  • Li Ying Zhang,
  • Xiang Lei Yu,
  • Wei Chao Li,
  • Jun Peng Li,
  • Guo You Gan

DOI
https://doi.org/10.1088/2053-1591/acca66
Journal volume & issue
Vol. 10, no. 4
p. 045201

Abstract

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A high-temperature conductive silver slurry containing lead-free ZnO-B _2 O _3 -SiO _2 glass for metallization of ceramic MgTiO _3 substrate has been prepared. The ZnO-B _2 O _3 -SiO _2 glass was obtained by high-temperature melting and cold extraction with a transition temperature (T _g ) of 579 °C and thermal stability (∆T) of 105 °C as an inorganic bonding phase of high-temperature conductive silver paste. Then, silver paste with different glass powder content was sintered on ceramic MgTiO _3 substrate between 730 °C and 930 °C in increments of 50 °C. Characterization of the prepared materials revealed that their resistivity increases with the increase in glass powder content and decreases with the increase in sintering temperature. Sintering temperature and glass content have significant effects on the resistivity and adhesion of the thick silver film. When the silver paste with a glass content of 1.1 wt% was sintered at 830 °C for 10 min, the resulting thick silver film had a low resistivity of 1.81 μ Ω·cm (1.65 μ Ω·cm for silver) and a good adhesive strength of 39.4 N mm ^−2 . During the sintering process, the glass material melts and wets the silver powder, which promotes the sintering of the silver powder to form a dense network structure and improves the electrical conductivity of the silver film. In addition, the formation of ZnTiO _3 by chemical reactions between the glass and the substrate was observed, which dramatically improved the bonding strength of the silver film. Therefore, lead-free silver paste containing ZnO-B _2 O _3 -SiO _2 glass powder and MgTiO _3 ceramics has broad development prospects in ceramic filters.

Keywords