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Ultra-low-expansion ceramic pot and manufacturing method thereof

A ceramic, ultra-low technology, applied in the field of ceramics, can solve the problems of difficult promotion and application, large thermal expansion coefficient, high water absorption rate of the carcass, etc., achieve long service life, simple manufacturing process, and improve the effect of thermal shock resistance

Active Publication Date: 2012-06-27
JINGDEZHEN CERAMIC INSTITUTE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In order to adapt to the cooking environment and requirements of the wok, the wok made of ceramic material in the prior art is usually made of ordinary low-expansion ceramic material, which can withstand heat exchange at 650°C to 20°C without cracking, but its coefficient of thermal expansion is relatively large ( α=2.6×10 -6 / °C), the carcass has a high water absorption rate, low strength, easy to burst, and short service life, so it is difficult to promote and apply

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0017] The ultra-low expansion ceramic pot in this embodiment includes a ceramic body and a glaze applied to the surface.

[0018] The main material of the ceramic green body is as follows by weight percentage: petalite feldspar 48%, spodumene 10%, kaolin 35%, quartz 5%, calcined talc 2%. Add crystallization agent Ta to the green body 2 o 5 , and its consumption is 0.2% of the above-mentioned body main material total amount by weight percentage.

[0019] The glaze contains 55% petalite, 20% spodumene, 6% kaolin, 8% quartz, 2% calcined talc, 6% barium carbonate and 3% zinc oxide by weight percentage. In addition, zirconium silicate or ceramic pigment is added, and its consumption is 4% of the total amount of the above-mentioned glaze material by weight percentage.

[0020] The manufacture method of the ultra-low expansion ceramic pot of the present embodiment is as follows:

[0021] (1) Mix the components of the above-mentioned ceramic green body, mix and grind for 18 hours...

Embodiment 2

[0026] The ultra-low expansion ceramic pot in this embodiment includes a ceramic body and a glaze applied to the surface.

[0027] The main materials of the ceramic green body are as follows in percentage by weight: petalite feldspar 10%, spodumene 48%, kaolin 35%, quartz 5%, calcined talc 2%. Add crystallization agent GeO to another green body 2 , and its consumption is 0.4% of the above-mentioned green body main material total amount by weight percentage.

[0028] The glaze contains 53% petalite, 20% spodumene, 9% kaolin, 5% quartz, 2% calcined talc, 6% barium carbonate and 5% zinc oxide by weight percentage. In addition, zirconium silicate or ceramic pigment is added, and its consumption is 6% of the total amount of the above-mentioned glaze material by weight percentage.

[0029] The manufacture method of the ultra-low expansion ceramic pot of the present embodiment is as follows:

[0030] (1) Mix the components of the above-mentioned ceramic green body, mix and grind f...

Embodiment 3

[0035] The ultra-low expansion ceramic pot in this embodiment includes a ceramic body and a glaze applied to the surface.

[0036] The main material of the ceramic green body is as follows by weight percentage: petalite feldspar 50%, spodumene 10%, kaolin 35%, quartz 3%, calcined talc 2%. Add crystallization agent Nb to the other green body 2 o 5 , and its consumption is 0.6% of the above-mentioned body main material total amount by weight percentage.

[0037] The glaze contains 20% of petalite, 55% of spodumene, 8% of kaolin, 5% of quartz, 2% of calcined talc, 6% of barium carbonate and 4% of zinc oxide by weight percentage. In addition, zirconium silicate or ceramic pigment is added, and its consumption is 7% of the total amount of the above-mentioned glaze material by weight percentage.

[0038] The manufacture method of the ultra-low expansion ceramic pot of the present embodiment is as follows:

[0039] (1) Mix the components of the above-mentioned ceramic green body,...

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Abstract

The invention discloses an ultra-low-expansion ceramic pot. The ultra-low-expansion ceramic pot comprises a ceramic pot blank and a glaze coated on the surface of the ultra-low-expansion ceramic pot. The ceramic pot blank comprises main materials and one or more nucleation agents. The main materials comprise: by weight, 10 to 50% of petalite, 10 to 50% of spodumene, 25 to 40% of kaolin, 2 to 15% of quartz and 2 to 5% of calcined talcum. Preferably, the main materials comprise: by weight, 40 to 50% of petalite, 10 to 20% of spodumene, 30 to 35% of kaolin, 2 to 6% of quartz and 2 to 5% of calcined talcum. The weight of the one or more nucleation agents is 0.2 to 0.8% of that of the main materials. The invention also discloses a manufacturing method of the ultra-low-expansion ceramic pot. The ultra-low-expansion ceramic pot has excellent quick-cooling and quick-heating resistance and ultra-low thermal expansion coefficients. The manufacturing method provided by the invention obviously improves product use performances and stability, has simple processes and good repeatability, is suitable for industrial production and is conducive to promotion of ceramic cooker application and development.

Description

technical field [0001] The invention relates to the technical field of ceramics, in particular to a ceramic pot for cooking. Background technique [0002] Pots are the most commonly used cooking utensils in cooking, and the use of frying pans is more general. Because the frying pan is used under high temperature and rapid cooling and rapid heating, the material of the frying pan is generally all iron so far. However, the iron frying pan has poor heat preservation performance, and the cooking taste is not delicious; and it is easy to rust, and long-term use will cause harm to the human liver. For this reason, the prior art also has some organic coatings sprayed on the surface of the pot to prevent rust, but the use effect is not good, and it will inevitably cause secondary pollution. [0003] For addressing the above problem, prior art has also developed the wok of ceramic material. Ceramic pots have good heat preservation performance, delicious cooking, and are environmen...

Claims

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Application Information

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IPC IPC(8): C04B35/16C04B35/622
Inventor 周健儿包启富黄武清
Owner JINGDEZHEN CERAMIC INSTITUTE
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