AbstractThe three key properties required for microwave dielectric ceramics are suitable dielectric constant (εr), high quality factor (Q × f), and near‐zero temperature coefficient of resonant frequency (τf). Due to the intricate coupling relationship among these three properties, regulating one often leads to the deterioration of the remaining two. In this study, the synergetic regulation of dielectric properties of Ca0.7Nd0.2TiO3 was investigated to reduce τf to near‐zero while maintaining its high εr by A‐ and B‐site substitutions. To avoid the seesaw effect and improve the efficiency of composition optimization, machine learning method was introduced in this study. First, the models for predicting dielectric properties were fitted based on a small amount of high‐quality data gathered via a uniform experimental design. Then the dielectric properties of 1037 compositions of (Ca0.7Nd0.2)1−x(Li0.5Nd0.5)xTi1−y(Mg1/3Nb2/3)yO3 were predicted, from which 69 microwave dielectric ceramics with near‐zero τf and adjustable εr of 95–125 were quickly picked out, and 5 of them were proved by experiments with very high prediction accuracy. This work was finished within a period of 1 month, which proves the obvious acceleration of composition designing process of microwave dielectric ceramics with the aid of machine learning.
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