Sound-absorbing radiation protective paint and preparation method thereof

A technology of anti-radiation coatings and thickeners, applied in the field of architectural coatings, can solve the problems of hidden safety hazards in buildings, hidden safety hazards in coatings, and taking up more effective space, so as to reduce the load-bearing of buildings, and have anti-alkali and anti-mildew properties. Strong, smooth and comfortable touch

Active Publication Date: 2010-09-15
谢绍何
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Foamed polystyrene particles, as mentioned above, will release poisonous gas in case of fire. This coating has potential safety hazards. Moreover, the technical solution does not screen the light perlite selected, and the sound absorption effect is not ideal.
Patent CN 101081955A (Application No. 200710028446.5) discloses a light-weight sound-absorbing coating and its preparation method. The coating provides sound-absorbing effect by adding open-cell expanded perlite, but due to the rough surface and open pores of open-cell expanded perlite, High water absorption, low strength, brittle, poor compressive resistance, and easy weathering. After being made into a coating or sound-absorbing material, it is prone to cracks, hollowing, etc.
The sound absorption effect is not ideal if the paint film is too thin or less than 1mm thick
[0004] In addition, as we all know, long-term or frequent exposure to electromagnetic radiation will seriously damage people's health.
In the early days, people usually used lead plates for protection against radiation, but lead is soft and poisonous, and it is easy to creep after a long time. The protection construction procedure is complicated and expensive.
Generally, rays have strong penetrating power, and they can pass through walls and ceilings of buildings with ordinary thickness. Although the radiation intensity has been weakened, it still poses a certain threat to human health. Thickening, this method not only wastes building materials, but also takes up more effective space; at present, lead plates, barium cement, and composite protective plates are mostly used for radiation at home and abroad, such as Japanese Patent No. 64-6433, CN92 1 06491.8, CN 86 1 00457.4, Protective coatings such as CN 88 1 05952.8 and filled anti-radiation materials such as CN 90 1 06378.9 are used for radiation protection; the bonding performance between barium cement and the protective body is poor, and it is easy to crack and fall off; the production process of the composite protective board is complicated, and the gap between the boards is leaking. The line is also difficult to handle; the existing anti-radiation coatings and filled anti-radiation materials all contain the toxic and harmful substances lead and its compounds, volatile organic compounds and free formaldehyde restricted by national standards; in addition, the filled anti-radiation materials are filled in the wall In the middle of the body, the complete structure of the wall is destroyed, and there are potential safety hazards in the building. During the construction and use, if there are cracks or holes in the filling, it cannot be found by people, which is a potential hazard.
Protective paint such as CN 1 5632 17A, is used for wall surface decoration effect is poor

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] The composition and weight percent of the sound-absorbing and anti-radiation coating of this embodiment are: porous modified starch 33; vinegar-acrylic emulsion type emulsion 8.775; barite 35; iron oxide 0.5; sodium polycarboxylate dispersant 0.25; whitening agent 0.01; titanium dioxide 3.5; defoamer 0.5; antifungal agent 0.01; water 15; ethylene glycol 0.4; film-forming aid 0.3; antifreeze 0.005; graphite 0.5; hydroxyethyl cellulose 2;

[0037] The process steps for preparing the sound-absorbing and radiation-proof coating of the above formula are:

[0038] (a) Premixing: Add 1 / 2 of water, sodium polycarboxylate dispersant, 1 / 2 of defoamer, antifungal agent, thickener, hydroxyethyl cellulose, and whitening agent into the dispersion tank, Stir at a low speed of 300-1000 rpm for 10-25 minutes to form a colloidal solution. The faster the stirring rate, the shorter the time;

[0039](b) Dispersion and grinding: Add titanium dioxide, barite, graphite, and iron oxide to the...

Embodiment 2

[0044] The composition and weight percent of this embodiment are: porous modified starch 35; pure acrylic emulsion 5.775; barite 37; iron oxide 0.5; polycarboxylate sodium dispersant 0.25; brightener 0.01; titanium dioxide 2.5; defoaming Agent 0.5; antifungal agent 0.01; water 15; ethylene glycol 0.4; film-forming aid 0.3; antifreeze agent 0.005; graphite 0.5;

[0045] The coating preparation process is consistent with the steps in Example 1.

[0046] Prepare a 0.4mm thick paint film on the asbestos cement board, and use the reverberation chamber method to detect the average sound absorption coefficient of 0.55. When preparing an 8mm thick paint film on an asbestos cement board, the lead equivalent is 0.87mmpb.

Embodiment 3

[0048] The composition and weight percent of this embodiment are: porous modified starch 37; styrene-acrylic emulsion 5.775; barite 39; iron oxide 0.5; polycarboxylate sodium dispersant 0.25; Antifungal agent 0.5; antifungal agent 0.01; water 13; ethylene glycol 0.4; film-forming aid 0.3; antifreeze agent 0.005; graphite 0.5;

[0049] The coating preparation process is consistent with the steps in Example 1.

[0050] Prepare a 0.5mm thick paint film on the asbestos cement board, and use the reverberation chamber method to test, the average sound absorption coefficient is 0.58. When preparing a 11mm thick paint film on an asbestos cement board, the lead equivalent is 1.17mmpb.

[0051] The titanium dioxide in the above embodiments can be any one or more of rutile titanium dioxide or anatase titanium dioxide. Titanium dioxide not only makes the coating have a certain hiding power, but also enhances the strength of the coating film itself. The acrylic emulsion is used as the bi...

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Abstract

The invention relates to a sound-absorbing radiation protective paint, which comprises the following components in percentage by weight: 30 to 38 percent of porous modified starch, 5.0 to 9.5 percent of styrene-acrylic latex emulsion, 33 to 41 percent of barite, 0.5 to 1 percent of iron oxide, 0.25 to 1 percent of sodium polycarboxylate dispersant, 0.01 to 1 percent of brightening agent, 1.0 to 6 percent of titanium white, 0.5 to 1 percent of defoamer, 0.01 to 1 percent of mildew preventive, 13 to 18 percent of water, 0.4 to 1 percent of ethylene glycol, 0.3 to 1 percent of film-forming auxiliary agent, 0.005 to 1 percent of anti-freeze agent, 0.5 to 1 percent of graphite, 1 to 3 percent of hydroxyethyl cellulose and 0.20 to 1 percent of thickening agent. A preparation method of the sound-absorbing radiation protective paint comprises the steps of: (a) premixing, namely stirring 1/2 water, the sodium polycarboxylate dispersant, 1/2 defoamer, the mildew preventive, the thickening agent, the hydroxyethyl cellulose and the brightening agent at low speed to form colloidal solution; (b) dispersing and grinding, namely adding the titanium white, the barite, the graphite and the iron oxide into the colloidal solution and stirring the solution at high speed to prepare uniform sizing agent; (c) paint mixing, namely adding crylic acid emulsion, the film-forming auxiliary agent and the anti-freeze agent into the sizing agent, uniformly stirring the sizing agent, then dividing the porous modified starch into 1 to 5 parts, and adding the porous modified starch by 1 to 5 times into the mixture for low-speed and uniformly stirring the mixture; and (d) packaging the resulting product.

Description

technical field [0001] The invention relates to a coating for construction, in particular to a sound-absorbing and anti-radiation coating and a manufacturing method thereof. Background technique [0002] People and government departments pay more and more attention to the harm of noise pollution to people's health and daily life, and the sound absorption function of buildings is gradually increasing in many building functions. Sound-absorbing materials can not only improve the indoor sound quality environment, but also play a very important role in noise control. There are many kinds of building sound-absorbing materials. At present, the most widely used ones in my country are gypsum decorative sound-absorbing panels, glass wool decorative sound-absorbing panels, rock (mineral) cotton decorative acoustic panels, perlite decorative acoustic panels, polystyrene Foam plastic decorative sound-absorbing panels, metal decorative sound-absorbing panels, micro-perforated structure s...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09D5/32C04B26/28
Inventor 谢绍何
Owner 谢绍何
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