Nano/inorganic composite material and preparation method thereof

An inorganic composite and nanotechnology, applied in the field of inorganic material science, to achieve the effects of convenient mechanized construction, excellent anti-static, and excellent mechanical properties

Inactive Publication Date: 2012-12-12
林晓琴 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] At present, there is no report on the combination of carbon nanotubes, oxides and sulfates to improve the performance of concrete.

Method used

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  • Nano/inorganic composite material and preparation method thereof
  • Nano/inorganic composite material and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] The preparation of embodiment 1 complex of the present invention

[0031] (1) Distribute ingredients according to the following components:

[0032] Component A: 30 parts by weight of calcium oxide

[0033] Aluminum oxide 15 parts by weight

[0034] Kaolin 5 parts by weight

[0035] Calcium sulfate 60 parts by weight

[0036] 10 parts by weight of iron sulfate

[0037] Component B: 1.5 parts by weight of multi-walled carbon nanotubes

[0038] (2) After calcining component A at 1000°C-1300°C for 1-3 hours, cool to room temperature under drying;

[0039] (3) Add component B to the calcined component A, mix evenly, and grind with a Raymond mill until the particle size is less than 500 mesh.

Embodiment 2

[0040] The preparation of embodiment 2 complexes of the present invention

[0041] (1) Distribute ingredients according to the following components:

[0042] Component A: 60 parts by weight of quicklime

[0043] Aluminum oxide 30 parts by weight

[0044] Calcium sulfate 130 parts by weight

[0045] Component B: 10% w / w carbon nanotube mica filler 25 parts by weight

[0046] (2) After calcining component A at 1000°C-1300°C for 1-3 hours, cool to room temperature under drying;

[0047] (3) Add component B to the calcined component A, mix evenly, and grind with a Raymond mill until the particle size is less than 500 mesh.

Embodiment 3

[0048] The preparation of embodiment 3 complexes of the present invention

[0049] (1) Distribute ingredients according to the following components:

[0050] Component A: 28 parts by weight of calcium oxide

[0051] Kaolin 18 parts by weight

[0052] Aluminum oxide 12 parts by weight

[0053] Magnesium oxide 4 parts by weight

[0054] Calcium sulfate 70 parts by weight

[0055] Iron sulfate 6 parts by weight

[0056] Component B: 10% w / w carbon nanotube titanium dioxide filler 15 parts by weight

[0057] (2) After calcining component A at 1000°C-1300°C for 1-3 hours, cool to room temperature under drying;

[0058] (3) Add component B to the calcined component A, mix evenly, and grind with a Raymond mill until the particle size is less than 500 mesh.

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Abstract

The invention provides a nano / inorganic composite material, which consists of the following ingredients by weight portions: 1-15 portions of carbon nano materials, 40-120 portions of oxide materials and 60-180 portions of sulfate materials, wherein the carbon nano materials are calculated by carbon nano active ingredients in the materials. The invention additionally provides a preparation method for the nano / inorganic composite. When the nano / inorganic composite material is used as engineering materials or engineering auxiliary materials, the nano / inorganic composite material has the performances of static electricity conduction, leakage prevention, high strength and concrete contraction compensation. The composite material has the advantages of low production cost and simple operation process, and can be widely used as functional building materials in the engineering field such as mines, tunnels and the like.

Description

technical field [0001] The invention relates to a nano / inorganic compound and a preparation method thereof. It belongs to the field of inorganic materials science. technical background [0002] The development of concrete materials has a history of more than 200 years. Due to its own advantages, high strength, good durability, wide source of raw materials, simple process, low cost, and suitable for various natural environments, it has been greatly developed. However, concrete is a porous substance with many pores, and when the concrete dries, it is easy to shrink and cause cracks. These pores and cracks will become channels for water seepage and leakage in the later period. Long-term water seepage will lead to cracks inside the concrete. Calcium hydroxide dissolves and erodes the internal structure of concrete, which not only affects the safety of the structure, but also shortens the service life of the project. [0003] At present, some people use Portland cement and othe...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B22/14
Inventor 石辰亮向东
Owner 林晓琴
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