초록 ▼

A method of producing lithium aluminosilicate (LAS) ceramics, which uses a mixing powder of lithium carbonate, aluminum oxide, and silicon oxide as a raw material powder. After being mixed by ball milling and baked dry, the raw material powder is processed with a calcinations process such that the r

A method of producing lithium aluminosilicate (LAS) ceramics, which uses a mixing powder of lithium carbonate, aluminum oxide, and silicon oxide as a raw material powder. After being mixed by ball milling and baked dry, the raw material powder is processed with a calcinations process such that the raw material powder becomes a precursor. The precursor is then pressed into the green ceramic. Significantly, the high heat conducting metal sheets are tightly attached above and below the surfaces of the ceramic during sinter and heat-treatment processes. A solid-state sinter process is performed with the green ceramic. Next, the ceramic is treated with a proper heat-treatment process. Since the top and bottom surfaces of the ceramic are capped with the high heat conducting metal, the ceramics are uniformly heated during all the heating processes. The ceramics of this invention exhibit more uniform properties and stable structure, which allow them to be used as temperature compensation components and athermal products.

대표청구항 ▼

1. A method of producing LAS ceramics comprising:providing lithium carbonate, aluminum oxide, and silicon oxide as a raw material powder,mixing, grinding, and then drying the raw material powder;performing a calcinations process on the raw material powder to form a precursor;pressing the precursor i

1. A method of producing LAS ceramics comprising:providing lithium carbonate, aluminum oxide, and silicon oxide as a raw material powder,mixing, grinding, and then drying the raw material powder;performing a calcinations process on the raw material powder to form a precursor;pressing the precursor into a green ceramic;attaching high thermal conducting metal sheets above and below surfaces of the green ceramic;performing a sinter process to turn the green ceramic into ceramic; and,performing a heat treatment process on the ceramic. 2. The method of producing LAS ceramics of claim 1, wherein the mixing and grinding are performed by ball milling. 3. The method of producing LAS ceramics of claim 1, wherein the lithium carbonate, aluminum oxide and silicon oxide molar ratio is between 1:1:2 and 1:1:3. 4. The method of producing LAS ceramics of claim 1, wherein the high thermal conducting metal sheet comprises a metal with a conductive coefficient larger than 10 W/mK. 5. The method of producing LAS ceramics of claim 4, wherein the high thermal conducting metal sheet comprises platinum. 6. The method of producing LAS ceramics of claim 1, wherein the lithium oxide, aluminum oxide and silicon oxide molar ratio is between 1:1:2 and 1:1:3. 7. The method of producing LAS ceramics of claim 1, wherein the calcinations process is performed at a temperature between 500° C. and 700° C. 8. The method of producing LAS ceramics of claim 1, wherein the calcinations process is retained at temperature for between 12 and 36 hours. 9. The method of producing LAS ceramics of claim 1, wherein the sinter process is performed at a temperature between 850° C. and 1400° C. 10. The method of producing LAS ceramics of claim 1, wherein the sinter process is retained at temperature for between 2 and 24 hours. 11. The method of producing LAS ceramics of claim 1, wherein the heat treatment process comprises:(a) raising the ceramic to a first temperature;(b) lowering the ceramic from the first temperature to a second temperature; and(c) repeating step (a) and step (b). 12. The method of producing LAS ceramics of claim 11, wherein temperature is raised at a rate of between 1° C./min and 8° C./min. 13. The method of producing LAS ceramics of claim 11, wherein temperature is lowered at a rate of between 1° C./min and 8° C./min. 14. The method of producing LAS ceramics of claim 11, wherein the first temperature is 800° C., and the second temperature is 25° C. 15. A method of producing ceramics comprising:providing a precursor;pressing the precursor into an green ceramic;attaching high thermal conducting metal sheets above and below surfaces of the green ceramic;performing a sinter process to sinter the green ceramic into a ceramic; and,performing a heat-treatment process on the ceramic, the heat-treatment process including:(a) raising the ceramic to a first temperature;(b) lowering the ceramic from the first temperature to a second temperature; and(c) repeating step (a) and step (b). 16. The method of producing ceramics of claim 15, wherein lowered at a rate of between 1° C./min and 8° C./min.