LiF additives doped Li2Mg3Ti0.95(Mg1/3Nb2/3)0.05O6 microwave dielectric ceramics with high Qf values

In the present work, the Li2Mg3Ti0.95(Mg1/3Nb2/3)(0.05)O-6 (LMT(MN)) samples with LiF additions (1-5wt%) were prepared using the solid state method. The effects of LiF additives on sintering behavior, phase compositions and microwave dielectric properties of LMT(MN) samples were explored. According to XRD analysis, the LMT(MN) cubic solid solution was formed in ceramic sample in the whole composition range. LiF obviously lowered the optimum sintering temperature of LMT(MN) ceramic from 1550 to 1000 degrees C, indicating that LiF additive was beneficial to the improvement of the sintering characteristic of the matrix. The variations of the LiF additives and sintering temperatures were important factors to affect the microwave dielectric properties of sintered samples. High performances of microwave dielectric properties were achieved in LMT(MN)-3wt% LiF ceramic sintered at 1000 degrees C with a dielectric constant (epsilon(r)) of 14.95, a high quality factor (Q(f)) of 117,630GHz and a temperature coefficient of resonant frequency ((f)) of -11.22ppm/degrees C.