Crystal structure, vibration characteristics and microwave dielectric properties of low loss MgMo1-xWxO4 solid solution ceramics

Solid-phase method was used to synthesize MgMo1-xWxO4 (x = 0–0.15) ceramics. The influences of substitution Mo6+ with W6+ on crystal structure, vibration characteristics and microwave dielectric properties of MgMo1-xWxO4 ceramics were comprehensively studied. X-Ray diffraction illustrated all sample...

Full description

Saved in:
Bibliographic Details
Published in:Ceramics international 2023-02, Vol.49 (4), p.6077-6085
Main Authors: Feng, Chang, Feng, Xia, Feng, Tong, Yan, Xiangli, Wang, Wei, Wang, Mengyu, Zhu, Haikui, Wang, Lixi, Zhang, Qitu, Ta, Shiwo
Format: Article
Language:English
Subjects:
Ionic substitution
Magnesium molybdate
Microwave dielectric properties
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Solid-phase method was used to synthesize MgMo1-xWxO4 (x = 0–0.15) ceramics. The influences of substitution Mo6+ with W6+ on crystal structure, vibration characteristics and microwave dielectric properties of MgMo1-xWxO4 ceramics were comprehensively studied. X-Ray diffraction illustrated all samples exhibit single-phase monoclinic wolframite structure when x = 0–0.15, in which W6+ replaces Mo6+ sites formed solid solution. W6+ effectively improves sintering properties of the MgMoO4, the average grain size and relative density were increased. Raman characterization reveals that suitable W6+ substitution amount leads to reduction of v1 Ag peaks FWHM and the enhancement of specific v3 Ag peak for Mo/WO4 tetrahedron, which improves the ordered distribution of the crystal structure. The above combined effect results in the increased Q × f value, but has little influence of W6+ substitution on εr and τf for MgMoO4. When x = 0.09, MgMo0.91W0.09O4 ceramic sintered at 1050 °C has optimal microwave dielectric performance: εr = 7.21, Q×f = 90,829 GHz, τf = −67 ppm/°C.
ISSN:0272-8842
DOI:10.1016/j.ceramint.2022.10.085