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Production method for pseudo-wood ceramic products

A manufacturing method and technology for ceramic products, which are applied in the manufacture of tools, clay products, ceramic molding machines, etc., can solve the problems of single decorative effect, ordinary texture and difficult maintenance, and achieve the effect of good decorative effect, easy material selection and easy maintenance.

Active Publication Date: 2011-11-02
GUANGDONG XINRUNCHENG CERAMICS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] With the development of reform and opening up, people's living standards are improving day by day, and people's requirements for the quality of life are also increasing day by day. Natural, comfortable and environmentally friendly building decoration materials have become a new field of research and development in today's construction industry. Various wooden decoration materials are famous for their Environmental protection, clear texture, no radiation, and good decorative effect have become the object of choice for merchants, but they are easy to deform with changes in temperature and humidity, and are difficult to maintain and costly
Ceramics have become the main force of architectural decoration due to their good wear resistance, small shrinkage and deformation, uniform density, easy maintenance, and low cost, but their texture is ordinary and the decorative effect is single.

Method used

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  • Production method for pseudo-wood ceramic products
  • Production method for pseudo-wood ceramic products
  • Production method for pseudo-wood ceramic products

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] Add 30-50% by weight of stone powder to 20-40% by weight of porcelain sand, stir evenly at room temperature to form a mixed powder, then add 20-40% by weight of rare earth compounds, stir evenly at room temperature, At room temperature, through ball milling, spray granulation and other processes to form a billet mixed powder for use, the fineness weight percentage of the billet mixed powder is 250 mesh sieve: 0.8 ~ 1.0%, the billet particle size weight percentage is 40 mesh sieve Residue below: 15%, 40-80 mesh sieve: 69-69.2%, 80-100 mesh sieve: 15%; adding 6.0-6.5% of water by weight to press molding; the blank forming pressure: 250-100 280MPa, the blank is dried at 180-220°C and then used for later use; 20-40% by weight of potassium feldspar, 10-20% by weight of talc, 10-20% by weight of zircon powder, Stir evenly at room temperature to form a mixed powder, then add 10-20% by weight of kaolin, 10-20% by weight of calcium carbonate, 10-20% by weight of calcite, and 5-1...

Embodiment 2

[0017] Add 30% by weight of stone powder to 23.8% by weight of porcelain sand, and stir evenly at room temperature to form a mixed powder, then add 40% by weight of rare earth compound, stir evenly at room temperature, and at room temperature, through ball milling, Spray granulation and other processes to form the billet mixed powder for use, the fineness weight percentage of the billet mixed powder is 250 mesh sieve: 0.8%, the billet particle size weight percentage is 10 mesh sieve: 15%, 45 mesh sieve Residue: 69.2%, 80 mesh sieve Residue: 15%; add 6.2% water content and press molding, the forming pressure of the blank: 260MPa, the blank is dried at 180°C for later use; 30% by weight of Potassium feldspar is mixed with 10% by weight of talc and 10% by weight of zircon powder, stirred evenly at room temperature to form a mixed powder, and then added 10% by weight of kaolin, 15% by weight of calcium carbonate, 10 % by weight of calcite and 15% by weight of barium carbonate are ...

Embodiment 3

[0019] Add 40% by weight of stone powder to 20% by weight of porcelain sand, and stir evenly at room temperature to form a mixed powder, then add 33.6% by weight of rare earth compound, stir evenly at room temperature, and at room temperature, through ball milling, Spray granulation and other processes form the mixed powder for billet to be used. The fineness weight percentage of the mixed powder for the billet is 250 mesh sieve residue: 0.9%, and the billet particle size weight percentage is 20 mesh sieve residue: 15 %, 50-mesh sieve: 69.1%, 85-mesh sieve: 15%; add 6.4% water content to press molding, the forming pressure of the blank: 270MPa, the blank is dried at 190°C for later use; 20% by weight of potassium feldspar is mixed with 15% by weight of talc and 15% by weight of zircon powder, stirred evenly at room temperature to form a mixed powder, and then 15% by weight of kaolin, 15% by weight of Calcite, 15% by weight of calcite, and 5% by weight of barium carbonate are s...

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Abstract

The invention discloses a method for preparing wood-like ceramic product. It comprises body preparing, glaze preparing, glaze spraying and printing. It is characterized in that it comprises following steps: (1) pressing the body with powder to the expected shape at the pressure of 250-280 MPa, baking it at the temperature of 180- 220 Deg. C and spraying glaze; (2) printing the sprayed body with printing material; (3) spraying and printing the body again; (4) spraying and printing the body once more; (5) calcining the body in the kiln at the temperature of 1200-1600 Deg. C for 60-80 min. The invention is characterized by reasonable and simple process, easy to operation, easy to material selection and adapt to mass industrialized production.

Description

technical field [0001] The invention relates to a method for manufacturing building decoration materials, in particular to a method for manufacturing wood-like ceramic products. Background technique [0002] With the development of reform and opening up, people's living standards are improving day by day, and people's requirements for the quality of life are also increasing day by day. Natural, comfortable and environmentally friendly building decoration materials have become a new field of research and development in today's construction industry. Various wooden decoration materials are famous for their Environmental protection, clear texture, no radiation, and good decorative effect have become the objects of choice for merchants, but they are easy to deform with changes in temperature and humidity, and are difficult to maintain and costly. Ceramics have become the main force of architectural decoration due to their good wear resistance, small shrinkage and deformation, un...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B35/622C04B33/34C04B41/86B28B1/29
Inventor 梁伟洪
Owner GUANGDONG XINRUNCHENG CERAMICS