Temperature stable cold sintered (Bi0.95Li0.05)(V0.9Mo0.1)O4-Na2Mo2O7 microwave dielectric composites
Dawei Wang
Shiyu Zhang
Di Zhou
Kaixin Song
Antonio Feteira
J. C. Vardaxoglou
William Whittow
Darren Cadman
Ian M. Reaney
2134/37679
https://repository.lboro.ac.uk/articles/journal_contribution/Temperature_stable_cold_sintered_Bi0_95Li0_05_V0_9Mo0_1_O4-Na2Mo2O7_microwave_dielectric_composites/9572357
Dense (Bi0.95Li0.05)(V0.9Mo0.1)O4-Na2Mo2O7 (100−x) wt.% (Bi0.95Li0.05)(V0.9Mo0.1)O4 (BLVMO)-x wt.% Na2Mo2O7 (NMO) composite ceramics were successfully fabricated through cold sintering at 150 °C under at 200 MPa for 30 min. X-ray diffraction, back-scattered scanning electron microscopy, and Raman spectroscopy not only corroborated the coexistence of BLVMO and NMO phases in all samples, but also the absence of parasitic phases and interdiffusion. With increasing NMO concentration, the relative pemittivity (εr) and the Temperature Coefficient of resonant Frequency (TCF) decreased, whereas the Microwave Quality Factor (Qf) increased. Near-zero TCF was measured for BLVMO-20wt.%NMO composites which exhibited εr ~ 40 and Qf ~ 4000 GHz. Finally, a dielectric Graded Radial INdex (GRIN) lens was simulated using the range of εr in the BLVMO-NMO system, which predicted a 70% aperture efficiency at 26 GHz, ideal for 5G applications.
2019-04-30 08:28:10
Cold sintering process
Microwave dielectric ceramics
Graded radial index lens
Mechanical Engineering not elsewhere classified