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Mechanical, thermal, and dielectric properties of glass mullite composites for low‐temperature cofired ceramic and radome applications

Oğuzhan Bilaç, Cihangir Duran

2023International Journal of Applied Ceramic Technology20 citationsDOI

Abstract

Abstract SiO 2 ‐Al 2 O 3 ‐CaO‐based glass (10–60 wt%)/mullite composites were investigated for the LTCC and radome applications. The optimum densification temperatures decreased from 1550°C (10 wt% glass) to 1400°C (30 wt% glass) by means of liquid‐phase sintering, and to 850°C–825°C (50–60 wt% glass) by means of viscous phase sintering. XRD analysis showed that mullite was the main phase as well as in situ crystallized anorthite after 825°C. The composite with 20 wt% glass was a suitable candidate for the radome applications (bulk density = 2.86 g/cm 3 after sintering at 1450°C, dielectric constant (loss) = 7.12 (0.0025) at 5 MHz, thermal expansion coefficient = 4.27 ppm/°C between 25°C and 800°C, thermal shock resistance parameter = 162°C), and the composite with 50 wt% glass was a suitable candidate for the low‐temperature cofired ceramic applications (bulk density = 2.64 g/cm 3 after sintering at 850°C, dielectric constant (loss) = 6.79 (0.0043) at 5 MHz, thermal conductivity = 2.11 W/m⋅K at 25°C, and thermal expansion coefficient = 3.93 ppm/°C between 25°C and 300°C).

Topics & Concepts

Materials scienceMulliteComposite materialThermal expansionSinteringDielectricThermal shockCeramicComposite numberPhase (matter)AnorthiteThermal conductivityTemperature coefficientDielectric lossMineralogyOrganic chemistryOptoelectronicsChemistryMicrowave Dielectric Ceramics SynthesisFerroelectric and Piezoelectric MaterialsAdvanced ceramic materials synthesis
Mechanical, thermal, and dielectric properties of glass mullite composites for low‐temperature cofired ceramic and radome applications | Litcius