Low temperature sintering of .ALPHA.-cordierite ceramics with low thermal expansion using Li2O-Bi2O3 as a sintering additive

Ogiwara, Toshio; Noda, Yoshimasa; Kakio, Shoji; Kimura, Osamu

doi:10.2109/jcersj2.119.706

Cited by 9 publications

(1 citation statement)

References 7 publications

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“…On the other hand, the value of the sample sintered with 4% additive is about half that of the sample sintered with 3% additive, although their densities are almost the same. This fact suggests that mechanical properties of the samples added with sintering additive depends on the content of the additive . When the additive content went over a determined amount, an excess liquid phase might be formed, resulting in a substantial degradation of mechanical properties.…”

Section: Resultsmentioning

confidence: 99%

Low‐Temperature Sintering of β‐Spodumene Ceramics Using Li₂O–GeO₂ as a Sintering Additive

2013

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Low-temperature sintering of b-spodumene ceramics with low coefficient of thermal expansion (CTE) was attained using Li 2 O-GeO 2 sintering additive. Single-phase b-spodumene ceramics could be synthesized by heat treatment at 1000°C using highly pure and fine amorphous silica, a-alumina, and lithium carbonate powders mixture via the solid-state reaction route. The mixture was calcined at 950°C, finely pulverized, compacted, and finally sintered with or without the sintering additive at 800°C-1400°C for 2 h. The relative density reached 98% for the sample sintered with 3 mass% Li 2 O-GeO 2 additive at 1000°C. Its Young's modulus was 167 GPa and flexural strength was 115 MPa. Its CTE (from R.T. to 800°C) was 0.7 3 10 À6 K À1 and dielectric constant was 6.8 with loss tangent of 0.9% at 5 MHz. These properties were excellent or comparative compared with those previously reported for the samples sintered at around 1300°C-1400°C via melt-quenching routes. As a result, b-spodumene ceramics with single phase and sufficient properties were obtained at about 300°C lower sintering temperature by adding Li 2 O-GeO 2 sintering additive via the conventional solid-state reaction route. These results suggest that b-spodumene ceramics sintered with Li 2 O-GeO 2 sintering additive has a potential use as LTCC for multichip modules.I. Reimanis-contributing editor Manuscript No. 32743.

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Section: Resultsmentioning

confidence: 99%

Low‐Temperature Sintering of β‐Spodumene Ceramics Using Li₂O–GeO₂ as a Sintering Additive

2013

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Effect of andalusite and zircon on the performances of cordierite-spodumene composite ceramics for solar heat transmission pipeline

et al. 2016

Ceramics International

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Processing of lithium aluminium silicate glass-ceramics and investigations of fracture behaviour and its correlation with the microstructural features

Biswas,

Buchi Suresh,

Jana

et al. 2024

Ceramics International

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Low temperature sintering of .ALPHA.-cordierite ceramics with low thermal expansion using Li2O-Bi2O3 as a sintering additive

Cited by 9 publications

References 7 publications

Low‐Temperature Sintering of β‐Spodumene Ceramics Using Li₂O–GeO₂ as a Sintering Additive

Low‐Temperature Sintering of β‐Spodumene Ceramics Using Li₂O–GeO₂ as a Sintering Additive

Effect of andalusite and zircon on the performances of cordierite-spodumene composite ceramics for solar heat transmission pipeline

Processing of lithium aluminium silicate glass-ceramics and investigations of fracture behaviour and its correlation with the microstructural features

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Low temperature sintering of .ALPHA.-cordierite ceramics with low thermal expansion using Li2O-Bi2O3 as a sintering additive

Cited by 9 publications

References 7 publications

Low‐Temperature Sintering of β‐Spodumene Ceramics Using Li2O–GeO2 as a Sintering Additive

Low‐Temperature Sintering of β‐Spodumene Ceramics Using Li2O–GeO2 as a Sintering Additive

Effect of andalusite and zircon on the performances of cordierite-spodumene composite ceramics for solar heat transmission pipeline

Processing of lithium aluminium silicate glass-ceramics and investigations of fracture behaviour and its correlation with the microstructural features

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Low‐Temperature Sintering of β‐Spodumene Ceramics Using Li₂O–GeO₂ as a Sintering Additive

Low‐Temperature Sintering of β‐Spodumene Ceramics Using Li₂O–GeO₂ as a Sintering Additive