In this study, a binary CaO-B2O3-SiO2 (CBS) glass composite CBS 950 comprising a high SiO2 content (67.3 mol%) and a low SiO2 content (23.3%) of CaO-SiO2-B2O3 glasses was prepared. The sintering behavior, structural evolution, and dielectric properties of the binary glass composite were characterized and compared to those of a single CBS glass (CBS-11) with the exact same composition. CBS-11 glass densified rapidly within a narrower temperature range (approximate to 800 degrees C) as compared to CBS-950 glass (from approximate to 700 degrees C to 875 degrees C). It was found that crystallization of CaB2O4 phase in CBS-950 glass was easier than that in CBS-11 glass during heat treatment. Activation energy of CaB2O4 phase in CBS-950 glass was determined to be 307 kJ/mol. The best glass-ceramic was resulted from CBS-950 glass sintered at 900 degrees C, which possesses a dielectric constant of 3.77 and a dielectric loss of 0.0012 at frequency of 4.3 GHz. CBS-950 glass is superior to CBS-11 glass for use as LTCC substrates in terms of overall performance.

• 出版日期2010-5-28