Low-loss dielectric ceramic materials and their properties

Sebastian, Mailadil Thomas; Ubic, Rick; Jantunen, Heli

doi:10.1179/1743280415y.0000000007

Cited by 546 publications

(242 citation statements)

References 130 publications

(209 reference statements)

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“…In decades, due to the rapid development of wireless technology, the microwave components play an important role in the field of the fifth‐generation (5G) mobile communication, global positioning system, wireless fidelity, and so on . As the key materials, the microwave ceramics should possess high microwave dielectric constant ( ε r ), high quality factor (Qf) ( Q =

\frac{1}{\tan δ}

), and near‐zero TCF (temperature coefficient of resonant frequency) …”

Section: Introductionmentioning

confidence: 99%

Novel thermally stable, high quality factor Ba₄(Pr_0.4Sm_0.6)_28/3Ti₁₈₋_yGa₄_y_/3O₅₄ microwave dielectric ceramics

Wang

Shi

et al. 2019

J Am Ceram Soc

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High dielectric constant Ba4(Pr0.4Sm0.6)28/3Ti18−yGa4y/3O54 (BPSTG) (0 ≤ y ≤ 1) microwave ceramics with enhanced dielectric properties were synthesized via the traditional solid‐state processing for the first time. The crystal structure, microstructure, and microwave dielectric characteristics were investigated in details. X‐ray diffraction results showed that all well‐sintered samples belonged to a single tungsten bronze type phase. Results showed that partial substitution of Ga3+ for Ti4+ is an effective way in adjusting the temperature coefficient of resonant frequency (TCF) value of the Ba4(Pr0.4Sm0.6)28/3Ti18O54 ceramics and increased the quality factor (Qf) values. The variation tendency of dielectric constant was in accordance with the ionic polarizability. The Qf values highly depend on the grain size from the scanning electron microscopy results. A near zero TCF value can be obtained by carefully adjusting the substitution of Ga3+ content. Infrared reflectivity (FIR) spectra were employed to reveal the relationship between the phonons and microwave dielectric properties. At last, excellent combinations dielectric properties of εr = 78.5, Qf = 12,400 GHz, TCF = +2.1 ppm/°C were achieved in BPSTG ceramics when y = 0.75.

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\frac{1}{\tan δ}

), and near‐zero TCF (temperature coefficient of resonant frequency) …”

Section: Introductionmentioning

confidence: 99%

Novel thermally stable, high quality factor Ba₄(Pr_0.4Sm_0.6)_28/3Ti₁₈₋_yGa₄_y_/3O₅₄ microwave dielectric ceramics

Wang

Shi

et al. 2019

J Am Ceram Soc

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show abstract

“…These factors determine the feasibility of the material in different electrical applications 35,36 . The measured densities and dielectric properties are reported in Table 1 in comparison with those reported for Li 2 MoO 4 parts manufactured with RTF and post-processing at 120 °C 22 , and sintering at 540 °C 20,37 .…”

Section: Resultsmentioning

confidence: 99%

3D printed dielectric ceramic without a sintering stage

Väätäjä

Kähäri

Ohenoja

et al. 2018

Sci Rep

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This paper presents for the first time the fabrication of dielectric ceramic parts by 3D printing without sintering. The printable paste was prepared by mixing a carefully selected amount of water-soluble Li2MoO4 powder with water. A viscous mixture of solid ceramic particles and saturated aqueous phase was formed with a solid content of 60.0 vol.%. Printing of the sample discs was conducted with material extrusion using a low-cost syringe-style 3D printer. The consolidation and densification of the printed parts occurred during both printing and drying of the paste due to extrusion pressure, capillary forces, and recrystallization of the dissolved Li2MoO4. Complete drying of the paste was ensured by heating at 120 °C. The microstructure showed no delamination of the printed layers. Relatively high densities and good dielectric properties were obtained, especially when considering that no sintering and only pressure from the extrusion was employed. This approach is expected to be feasible for similar ceramics and ceramic composites.

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“…However, low‐permittivity microwave dielectric ceramics exhibit generally high‐magnitude negative τ f values according to the ε r ‐τ f relationship . In general, temperature compensated dopants with a large positive τ f value, such as TiO 2 , CaTiO 3 , and SrTiO 3 , are used in conventional processes in air to control the τ f value of low‐permittivity microwave dielectric ceramics .…”

Section: Introductionmentioning

confidence: 99%

Controllable τ_f value of barium silicate microwave dielectric ceramics with different Ba/Si ratios

et al. 2017

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Low-loss dielectric ceramic materials and their properties

Cited by 546 publications

References 130 publications

Novel thermally stable, high quality factor Ba₄(Pr_0.4Sm_0.6)_28/3Ti₁₈₋_yGa₄_y_/3O₅₄ microwave dielectric ceramics

Novel thermally stable, high quality factor Ba₄(Pr_0.4Sm_0.6)_28/3Ti₁₈₋_yGa₄_y_/3O₅₄ microwave dielectric ceramics

3D printed dielectric ceramic without a sintering stage

Controllable τ_f value of barium silicate microwave dielectric ceramics with different Ba/Si ratios

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Low-loss dielectric ceramic materials and their properties

Cited by 546 publications

References 130 publications

Novel thermally stable, high quality factor Ba4(Pr0.4Sm0.6)28/3Ti18−yGa4y/3O54 microwave dielectric ceramics

Novel thermally stable, high quality factor Ba4(Pr0.4Sm0.6)28/3Ti18−yGa4y/3O54 microwave dielectric ceramics

3D printed dielectric ceramic without a sintering stage

Controllable τf value of barium silicate microwave dielectric ceramics with different Ba/Si ratios

Contact Info

Product

Resources

About

Novel thermally stable, high quality factor Ba₄(Pr_0.4Sm_0.6)_28/3Ti₁₈₋_yGa₄_y_/3O₅₄ microwave dielectric ceramics

Novel thermally stable, high quality factor Ba₄(Pr_0.4Sm_0.6)_28/3Ti₁₈₋_yGa₄_y_/3O₅₄ microwave dielectric ceramics

Controllable τ_f value of barium silicate microwave dielectric ceramics with different Ba/Si ratios