Effect of H2O and CO₂ on Dielectric Properties of Single-Crystal Cordierite and Comparison with Polycrystalline Cordierite

The dielectric constants and dielectric loss values of two naturally occurring cordierite single crystals were deter mined at 1 MHz using a two-terminal method and empir ically determined edge corrections. The results are as fol lows. Cordierite 1: K'a = 5.653, tan 6 = 0.009; K'b= 6.106, tan 6 = 0.003; K'c= 5.658, tan 6 = 0.010. Cordierite 2:

K'a= 5.765, tan 6 = 0.0006; K"b= 6.334, tan 6 = 0.0007; K'c= 5.807, tan 6 = 0.0007. The agreement between mea sured dielectric polarizabilities as determined from the Clausius—Mosotti equation and those calculated from the sum of oxide polarizabilities according to aD(mineral)

= S aD(oxides) neglecting the channel H₂O and CO₂ for these two cordierite samples is ~20%. Inclusion of the effects of water and CO₂ assuming mobile H₂0 molecules with no correlation between their dipoles improves the agreement to ~2%. Comparison of dielectric constants of manufactured cordierite ceramics shows a discrepancy be tween typical observed values of 4.5—5.0 and a theoretical value of 4.0 calculated from the Clausius—Mosotti equa tion. In certain cases, this discrepancy can be accounted for by the presence of high-k' impurities, but in others there is no explanation for the differences.