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Carbon nano tube enhanced ceramic tile

A carbon nanotube and ceramic brick technology is applied in the field of refractory ceramic bricks to achieve the effects of toughening mechanical properties, low water absorption rate and simple preparation process

Active Publication Date: 2014-12-10
佛山市金环球陶瓷有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there are still many challenges in the application of carbon nanotubes and nanomaterials to the field of carbon nanotube-reinforced ceramic tiles.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] A ceramic brick reinforced by carbon nanotubes, the green body consists of the following parts by weight:

[0027] 10 parts of potassium feldspar; 10 parts of albite; 15 parts of Guangxi white clay; 30 parts of attapulgite; 20 parts of mullite; 30 parts of water; 1 part of carbon nanotube; 1 part of sodium tripolyphosphate; 1 part of steel fiber share;

[0028] The glaze weight part consists of:

[0029] 15 parts of feldspar, 10 parts of kaolin, 8 parts of quartz, 10 parts of burnt talc, 13 parts of limestone, 0.5 parts of chromium oxide, 3 parts of boron pentoxide, 8 parts of alumina, 5 parts of diatomaceous earth, 6 parts of fused magnesia 5 parts of zirconium silicate, 1 part of titanium oxide, 1 part of zinc oxide, 1 part of terbium oxide, 1 part of samarium oxide, 1 part of lutetium oxide, and 1 part of gold nanoparticles; the size of the gold nanoparticles is 10nm;

[0030] The ceramic brick reinforced by the carbon nanotubes is prepared by the following prepara...

Embodiment 2

[0036] A ceramic brick reinforced by carbon nanotubes, the green body consists of the following parts by weight:

[0037] 10 parts of potassium feldspar; 10 parts of albite; 15 parts of Guangxi white clay; 30 parts of attapulgite; 20 parts of mullite; 30 parts of water; 1 part of carbon nanotube; 1 part of sodium tripolyphosphate; 1 part of steel fiber share;

[0038] The glaze weight part consists of:

[0039] 15 parts of feldspar, 10 parts of kaolin, 8 parts of quartz, 10 parts of burnt talc, 13 parts of limestone, 0.5 parts of chromium oxide, 3 parts of boron pentoxide, 8 parts of alumina, 5 parts of diatomaceous earth, 6 parts of fused magnesia 5 parts of zirconium silicate, 1 part of titanium oxide, 1 part of zinc oxide, 1 part of terbium oxide, 1 part of samarium oxide, 1 part of lutetium oxide, and 1 part of silver nanoparticles; the size of the silver nanoparticles is 10nm;

[0040] The ceramic brick reinforced by the carbon nanotubes is prepared by the following pre...

Embodiment 3

[0046] A ceramic brick reinforced by carbon nanotubes, the green body consists of the following parts by weight:

[0047] 10 parts of potassium feldspar; 10 parts of albite; 15 parts of Guangxi white clay; 30 parts of attapulgite; 20 parts of mullite; 30 parts of water; 1 part of carbon nanotube; 1 part of sodium tripolyphosphate; 1 part of steel fiber share;

[0048] The glaze weight part consists of:

[0049]15 parts of feldspar, 10 parts of kaolin, 8 parts of quartz, 10 parts of burnt talc, 13 parts of limestone, 0.5 parts of chromium oxide, 3 parts of boron pentoxide, 8 parts of alumina, 5 parts of diatomaceous earth, 6 parts of fused magnesia 5 parts, 5 parts of zirconium silicate, 1 part of titanium oxide, 1 part of zinc oxide, 1 part of terbium oxide, 1 part of samarium oxide, 1 part of lutetium oxide, 1 part of copper nanoparticles; the size of the copper nanoparticles is 10nm;

[0050] The ceramic brick reinforced by the carbon nanotubes is prepared by the following...

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Abstract

The invention discloses a carbon nano tube enhanced ceramic tile. The preparation method comprises the following steps: by taking potassium feldspar, albite, Guangxi white clay, attapulgite, mullite, water, carbon nano tubes, sodium tripolyphosphate and steel fibers as blank raw materials and taking feldspar, kaolin, quartz, fired talc, limestone, chromic oxide, pentoxide boron, aluminium oxide, kieselguhr, fused magnesite, zirconium silicate, titanium oxide, zinc oxide, terbium oxide, samarium oxide, lutecia and metal nanoparticles as glaze raw materials, applying the glaze to the surface of a green body by using a glaze spraying or glaze sprinkling mode, thereby obtaining the carbon nano tube enhanced ceramic tile with good mechanical properties. Moreover, the glaze surface of the ceramic tile is attractive and elegant in appearance.

Description

technical field [0001] The invention belongs to the field of refractory ceramic bricks, in particular to a carbon nanotube reinforced ceramic brick. Background technique [0002] With the rapid development of my country's building ceramics industry, my country's demand for building ceramic materials is also increasing, especially in the field of carbon nanotube-reinforced ceramic tiles. In this field, people are also paying more and more attention to the impact of new materials on carbon nanotube-reinforced ceramic tiles. And by introducing new materials, the external appearance, internal physical and chemical properties, and health and environmental protection of carbon nanotube-reinforced ceramic tiles can be improved. [0003] In the field of materials, carbon nanotubes have good mechanical properties. The tensile strength of CNTs reaches 50-200GPa, which is 100 times that of steel, but the density is only 1 / 6 of steel, which is at least an order of magnitude higher than...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B33/13C04B41/86
Inventor 崔德柱
Owner 佛山市金环球陶瓷有限公司
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