CN105778577B - A kind of preparation method of energy storage luminescent ceramics coating - Google Patents

Abstract

The present invention relates to a kind of preparation methods of energy storage luminescent ceramics coating, energy storage luminescent ceramics coating includes the raw material of following parts by weight: component A: 30-90 parts of colloidal silica, 10-30 parts of nano alumina sol, 0-20 parts of filler, 0.2-5 parts of catalyst, 1-60 parts of water；B component: 30-70 parts of organic siliconresin, 10-30 parts of organic solvent, 5-20 parts of binder, 2-10 parts of auxiliary agent；Energy-accumulating luminous powder 50-90 parts of component C, 0-50 parts of solvent；First A, B, component C are configured respectively when preparation, then it is uniformly dispersed by A:B=1:0.5-1:3 weight ratio, finally press (A+B): C is added in C=1:0.1-1:0.8 weight ratio, cures 4-6h on twin-roll machine with 20-150r/min speed scroll, forms product.Coating of the invention has the function of the characteristic for also having from main light emission outside high temperature resistant, environmental protection, self-cleaning essence of ceramic coating etc.; wide range of applications; the preparation method technical maturity simultaneously; it is suitble to lot-size metaplasia to produce; have many advantages, such as to be novel energy-saving environment-friendly material that there is important economic value.

Description

A kind of preparation method of energy storage luminescent ceramics coating

Technical field

The present invention is to belong to field of new materials, is related to a kind of preparation of energy storage luminescent ceramics coating, is particularly applicable in traffic Safety devices field, such as bus platform, station, subway station.

Background technique

With the development of China Transportation Industry, traffic safety facilities are also required more stringent.Environment-friendly and energy-efficient product Important need as social development.

In recent years, the development of ceramic coating is applied in multiple fields, wear-resisting, high temperature resistant, high intensity, super thin The advantages that water, can replace traditional enamel product to a certain degree.The autonomous characteristics of luminescence of energy-accumulating luminous powder has also been transported in traffic Defeated field many aspects are applied, and have been obtained the abundant of all circles from the performances such as main light emission, environmental protection and energy saving, pollution-free and have been agreed It is fixed.Currently on the market there are no occur having many advantages, such as simultaneously ceramic coating and meanwhile can also be literary from the product of main light emission Offer and patent in also have not been reported, which can play a significant role in the underground installations such as subway station, have extensive city Field prospect.

Summary of the invention

It is an object of the invention to: a kind of energy storage luminescent ceramics coating is developed, makes it while there is the characteristic of ceramic coating, There is energy-saving and environment-friendly autonomous illumination effect again.And to meet that production is simple with manufacture craft, it is suitble to the need of large-scale production It will be with the requirement of client.

To achieve the goals above, the invention provides the following technical scheme:

A kind of energy storage luminescent ceramics coating, is configured by three components, the raw material including following parts by weight:

Component A:

B component:

Component C

Energy-accumulating luminous powder 50-90 parts

0-50 parts of solvent；

The preparation method of the energy storage luminescent ceramics coating, the specific steps are as follows: first respectively by A, B, component C when preparation It configures, is then uniformly dispersed by A:B=1:0.5-1:3 weight ratio, finally press (A+B): C=1:0.1-1:0.8 weight ratio adds Enter C, 4-6h is cured with 20-150r/min speed scroll on twin-roll machine, forms product.

Preferably, the concentration of the colloidal silica and nano alumina sol is 1-30%, and partial size is 20- 60nm。

Preferably, the filler is one of quartz, mica powder, talcum powder, kaolin, titanium dioxide or multiple combinations It forms.

Preferably, the catalyst is acid-base modifier, for one in glacial acetic acid, formic acid, acetic acid, stearic acid, oleic acid Kind or multiple combinations.

Preferably, the organic siliconresin is methoxy base trichlorosilane, dimethyldichlorosilane, in phenyl trichlorosilane It is one or more pass through modified resin.

Preferably, the binder is methyl methacrylate, butyl acrylate, acrylonitrile emulsion, organosilicone elastic One of body, third adhesive of vinegar a variety of mix.

Preferably, the auxiliary agent include one of dispersing agent, levelling agent, wetting agent, defoaming agent or multiple combinations and At, the organic solvent be one of ethyl alcohol, methanol, acetone, ethyl acetate, ethylene glycol or it is a variety of mix, it is described Solvent be one of tap water, deionized water, ethyl alcohol, acetone or a variety of mix.

Preferably, the energy-accumulating luminous powder is long afterglow class luminescent powder, for one in aluminate serial, silicate series Kind or a variety of be combined.

Preferably, the construction method of the energy storage luminescent ceramics coating, the specific steps are as follows:

A. with paint

Be uniformly dispersed by A:B=1:0.5-1:3 weight ratio, finally press (A+B): C=1:0.1~1:0.8 weight ratio is added C cures 4~6h on twin-roll machine with the speed scroll of 20~150r/m；

B. the surface treatment of workpiece

Workpiece carries out blasting treatment, removes rusty stain, the spot on surface after oil removing；The workpiece of blasting treatment is before application 5~10min is preheated in 50~60 DEG C of environment；

C. it constructs

Gas or airless spraying or electrostatic spraying mode has been taken to spray to energy storage luminescent ceramics coating on workpiece；

D. solidify

Under the conditions of 150~220 DEG C, solidify 10~30min.

Profitable effect of the invention is:

1, the energy storage luminescent ceramics coating prepared has high temperature resistant, wear-resisting, super-hydrophobic, high-intensitive, noninflammability, is suitble to more necks Domain application；

2, the energy storage luminescent ceramics coating prepared can be from main light emission, energy conservation and environmental protection.

3, simple production process, no complicated procedures of forming produce stable product quality, have a good application prospect.

Specific embodiment

Below with reference to embodiment, the present invention will be further explained:

Embodiment 1

A kind of energy storage luminescent ceramics coating, which is characterized in that configured by three components, the original including following parts by weight Material:

Component A:

B component:

Component C

50 parts of energy-accumulating luminous powder

1 part of solvent.

Embodiment 2

A kind of energy storage luminescent ceramics coating, which is characterized in that configured by three components, the original including following parts by weight Material:

Component A:

B component:

Component C

70 parts of energy-accumulating luminous powder

20 parts of solvent.

Embodiment 3

A kind of energy storage luminescent ceramics coating, which is characterized in that configured by three components, the original including following parts by weight Material:

Component A:

B component:

Component C

90 parts of energy-accumulating luminous powder

50 parts of solvent.

Wherein, in embodiment 1-3:

The concentration of the colloidal silica and nano alumina sol is 1-30%, and partial size is 20-60nm.

The filler is that one of quartz, mica powder, talcum powder, kaolin, titanium dioxide or multiple combinations form.

The catalyst is acid-base modifier, is one of glacial acetic acid, formic acid, acetic acid, stearic acid, oleic acid or a variety of Combination.

The organic siliconresin is one of methoxy base trichlorosilane, dimethyldichlorosilane, phenyl trichlorosilane Or it is a variety of by modified resin.

The binder is methyl methacrylate, butyl acrylate, acrylonitrile emulsion, elastomer silicone, vinegar third One of adhesive a variety of mixes.

The auxiliary agent includes that one of dispersing agent, levelling agent, wetting agent, defoaming agent or multiple combinations form, described Organic solvent be one of ethyl alcohol, methanol, acetone, ethyl acetate, ethylene glycol or it is a variety of mix, the solvent is One of tap water, deionized water, ethyl alcohol, acetone a variety of mix.

The energy-accumulating luminous powder is long afterglow class luminescent powder, is one of aluminate serial, silicate series or more Kind is combined.

Embodiment 4

The preparation method of energy storage luminescent ceramics coating in embodiment 1-3, the specific steps are as follows: when preparation first respectively by A, B, component C configures, and is then uniformly dispersed by A:B=1:0.5-1:3 weight ratio, finally by (A+B): C=1:0.1-1:0.8 weight Amount cures 4-6h on twin-roll machine than C is added with 20-150r/min speed scroll, forms product.

Embodiment 5

The construction method of energy storage luminescent ceramics coating in embodiment 1-3, the specific steps are as follows:

A. with paint

Be uniformly dispersed by A:B=1:0.5-1:3 weight ratio, finally press (A+B): C=1:0.1~1:0.8 weight ratio is added C cures 4~6h on twin-roll machine with the speed scroll of 20~150r/m；

B. the surface treatment of workpiece

Workpiece carries out blasting treatment, removes rusty stain, the spot on surface after oil removing；The workpiece of blasting treatment is before application 5~10min is preheated in 50~60 DEG C of environment；

C. it constructs

Gas or airless spraying or electrostatic spraying mode has been taken to spray to energy storage luminescent ceramics coating on workpiece；

D. solidify

Under the conditions of 150~220 DEG C, solidify 10~30min.

Embodiment 6

In order to better illustrate the energy storage luminescent ceramics coating with excellent luminescent properties, by the energy-accumulating luminous pottery of preparation Porcelain coating is coated on steel plate and is tested, and test result is as shown in table 1.

The twilight sunset of 1 reflex reflection energy-accumulating luminous paint of table is tested

Claims (9)

1. a kind of preparation method of energy storage luminescent ceramics coating is used to prepare energy storage luminescent ceramics coating, the energy-accumulating luminous pottery Porcelain coating is configured by three components, the raw material including following parts by weight:

Component A:

B component:

Component C

Energy-accumulating luminous powder 50-90 parts

0-50 parts of solvent；

It is characterized in that, specific step is as follows: first A, B, component C are configured respectively when preparation, then press A:B=1:0.5-1: 3 weight ratios are uniformly dispersed, and finally press (A+B): C is added in C=1:0.1-1:0.8 weight ratio, with 20-150r/min on twin-roll machine Speed scroll cures 4-6h, forms product.

2. the preparation method of energy storage luminescent ceramics coating according to claim 1, which is characterized in that described is nano oxidized The concentration of silica solution and nano alumina sol is 1-30%, and partial size is 20-60nm.

3. the preparation method of energy storage luminescent ceramics coating according to claim 1, which is characterized in that the filler is stone One of English, mica powder, talcum powder, kaolin, titanium dioxide or multiple combinations form.

4. the preparation method of energy storage luminescent ceramics coating according to claim 1, which is characterized in that the catalyst is Acid-base modifier is one of glacial acetic acid, formic acid, acetic acid, stearic acid, oleic acid or multiple combinations.

5. the preparation method of energy storage luminescent ceramics coating according to claim 1, which is characterized in that the organosilicon tree Rouge is one of methoxy base trichlorosilane, dimethyldichlorosilane, phenyl trichlorosilane or the modified resin of a variety of processes.

6. the preparation method of energy storage luminescent ceramics coating according to claim 1, which is characterized in that the binder is One of methyl methacrylate, butyl acrylate, acrylonitrile emulsion, elastomer silicone, third adhesive of vinegar are a variety of mixed It closes.

7. the preparation method of energy storage luminescent ceramics coating according to claim 1, which is characterized in that the auxiliary agent includes One of dispersing agent, levelling agent, wetting agent, defoaming agent or multiple combinations form, the organic solvent be ethyl alcohol, methanol, One of acetone, ethyl acetate, ethylene glycol or it is a variety of mix, the solvent be tap water, deionized water, ethyl alcohol, One of acetone a variety of mixes.

8. the preparation method of energy storage luminescent ceramics coating according to claim 1, which is characterized in that described is energy-accumulating luminous Powder is long afterglow class luminescent powder, for one of aluminate serial, silicate series or a variety of is combined.

9. the preparation method of energy storage luminescent ceramics coating according to claim 1, which is characterized in that specific step is as follows:

A. with paint

Be uniformly dispersed by A:B=1:0.5-1:3 weight ratio, finally press (A+B): C is added in C=1:0.1~1:0.8 weight ratio, 4~6h is cured with the speed scroll of 20~150r/m on twin-roll machine；

B. the surface treatment of workpiece

Workpiece carries out blasting treatment, removes rusty stain, the spot on surface after oil removing；The workpiece of blasting treatment will be before application 50~60 DEG C of environment preheats 5~10min；

C. it constructs

Gas or airless spraying or electrostatic spraying mode has been taken to spray to energy storage luminescent ceramics coating on workpiece；

D. solidify

Under the conditions of 150~220 DEG C, solidify 10~30min.