CN111408526A

CN111408526A - Coating process of matte veneer

Info

Publication number: CN111408526A
Application number: CN202010160159.5A
Authority: CN
Inventors: 马小波; 熊德清; 杨显涛
Original assignee: Foshan Shunde Purete Mechanical Co ltd
Current assignee: Foshan Shunde Purete Mechanical Co ltd
Priority date: 2020-03-10
Filing date: 2020-03-10
Publication date: 2020-07-14

Abstract

The invention belongs to the technical field of decorative plates for decoration and discloses a coating process of a matte decorative plate, which comprises the following steps: (1) cleaning a base material, rolling putty paint, and carrying out UV drying and curing; (2) sanding and dedusting the dried and cured base material, coating a UV sanding primer, and drying and curing the UV; (3) continuously coating the UV sanding primer, drying and curing the UV, and then sanding the cured UV to obtain a semi-finished plate; (4) removing dust from the semi-finished board, roller-coating UV matte finish, performing matte treatment in a super-matte machine, and performing UV drying and curing to obtain a matte decorative board; the condition parameters of the super-matte finishing machine are as follows: the nitrogen inlet pressure is 4-7bar, the nitrogen purity is more than or equal to 99 percent, and the temperature is 20-50 ℃. The production of the invention adopts the super-matte finishing machine to ensure that the matte degree of the matte finishing board is 0.5-5, and the matte finishing board has the advantages of pollution resistance, convenient cleaning, fingerprint resistance, scraping resistance, repairability and no odor.

Description

Coating process of matte veneer

Technical Field

The invention belongs to the technical field of decorative plates for decoration, and particularly relates to a coating process of a matte decorative plate.

Background

At present, the coating effect of the matte and matte decorative board in the industry is divided into matte and highlight, and the wood paint is divided into matte, semi-gloss and highlight according to the glossiness. The matte paint is a paint which is commonly used in people's life, and the application range is very wide, but most consumers do not clearly determine the characteristics and the application range of the matte paint. The existing coating process scheme can only achieve the minimum matte effect of 30.0 degrees and 50.0 degrees, and after the matte finish paint is sprayed, the coating process needs to be kept stand for drying, and the process of drying comprises two steps: the first step is surface drying, namely, the surface gelation state is achieved, the final effect of the paint is generally not influenced if some dust, thread ends or small particles fall on the paint surface after the surface is achieved, and the paint can sink into the paint if fine substances such as dust floating in the air fall on the paint surface before the surface drying is not achieved, so that the final effect of the paint is greatly influenced, if the surface is not smooth due to protrusion, the matte effect of the paint is further influenced, the second step is a real drying stage, namely, volatile thinner in the paint is completely volatilized, simultaneously the A component and the B component of the two-component paint generate a three-dimensional cross-linking chemical reaction, a complete three-dimensional net structure is achieved, and at the moment, the paint achieves equivalent surface hardness and can be used as a product. The problems that can be generated by the current technology are as follows: the surface effect is not good, particle impurities are easy to form, and the matte effect is not good. And the ultra-matte skin-feel matte coating effect is required to be achieved in the furniture and customized home decoration industries.

Therefore, the development of a coating process for realizing a matte veneer is urgently needed.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art described above. Therefore, the invention provides a coating process of a matte veneer, which can realize the extremely matte skin feeling effect of the veneer with the matte degree of 0.5-5 degrees.

In order to achieve the purpose, the invention provides the following technical scheme:

a coating process of a matte veneer comprises the following steps:

(1) cleaning a base material, rolling putty paint, and carrying out UV drying and curing;

(2) sanding and dedusting the dried and cured base material, coating a UV sanding primer, and drying and curing the UV sanding primer;

(3) continuously coating the UV sanding primer, drying and curing the UV, and then sanding the cured UV to obtain a semi-finished plate;

(4) removing dust from the semi-finished plate, roller-coating UV matte finish paint, performing matte treatment in a super-matte finishing machine, and performing UV drying and curing to obtain a matte finishing plate; the condition parameters of the super-matte finishing machine are as follows: the nitrogen inlet pressure is 4-7bar, the nitrogen purity is more than or equal to 99 percent, and the temperature is 20-50 ℃.

Preferably, the coating amount of the roller coating putty paint in the step (1) is 40-50g/m²。

Preferably, the specific processes of the roller painting putty paint and the UV drying and curing in the step (1) are as follows: and (3) firstly, carrying out roller painting of putty paint, carrying out first UV drying and curing, then carrying out roller painting of putty paint, and carrying out second UV drying and curing to obtain the pretreated substrate.

More preferably, the energy for the first UV drying curing is 150-²The energy of the second UV drying curing is 250-300mJ/cm²。

Preferably, the coating weight of the coating of the step (2) is 20-25g/m²。

Preferably, the coating weight of the continuous coating in the step (3) is 30-40g/m²。

Preferably, the UV matte finish paint in the step (4) comprises the following components in parts by weight: 20-30 parts of UV resin, 0.1-0.5 part of defoaming agent, 1-4 parts of dispersing agent, 10-19 parts of flatting agent, 5-20 parts of filler, 3-8 parts of initiator, 0.1-1 part of flatting agent and 1-2 parts of anti-settling agent.

Preferably, the L ED pre-curing energy of the super-matte finishing machine in the step (4) is adjusted to 10-15%, and the energy of the matte lamp is adjusted to 10-15%.

Preferably, the matte degree of the matte finishing plate in the step (4) is 0.5-5 degrees.

Preferably, the energy of the UV drying in the step (4) is 400-450mJ/cm²。

Compared with the prior art, the invention has the following beneficial effects:

(1) the production of the invention adopts the super-matte finishing machine to ensure that the matte degree of the matte finishing board is 0.5-5, and the matte finishing board has the advantages of pollution resistance, convenient cleaning, fingerprint resistance, scraping resistance, repairability and no odor.

(2) The hardness of the matte veneer produced by the invention can reach 3H, the wear resistance can reach 1200 turns, when the surface is scratched by a foreign object with hardness of more than 3H, the matte veneer can be repaired by using hot steam, and the selected finish paint has the characteristics of high surface hardness, good surface flatness, short curing time, high production efficiency and environmental protection.

(3) The finishing coat can be well attached to the semi-finished product in a roller coating mode, the speed is high, the efficiency is high, the finishing coat can be well matched with a subsequent curing process, and the formed finishing coat layer can be well used as a carrier of the matte paint.

Detailed Description

In order to make the technical solutions of the present invention more apparent to those skilled in the art, the following examples are given for illustration. It should be noted that the following examples are not intended to limit the scope of the claimed invention.

The starting materials, reagents or apparatuses used in the following examples are conventionally commercially available or can be obtained by conventionally known methods, unless otherwise specified.

Example 1

A coating process of a matte veneer comprises the following steps:

(1) cleaning dust on the surface of the substrate, filling and sealing the pore of the duct of the substrate with UV putty, wherein the coating weight is 44-46g/m²UV putty is applied at the energy of 150-200mJ/cm²Drying and curing, filling and sealing the catheter pores of the substrate with UV putty paint for the second time, wherein the coating weight is 40-50g/m²Filling and sealing the UV putty at the energy of 250-300mJ/cm²Drying and curing;

(2) after filling and sealing are done, the U is sealedV, sanding the surface of putty, cleaning dust on the surface of a plate, and rolling to prepare a UV sanding primer with the coating weight of 20-25g/m²The roller coating direction is two times along with paint coating, and the UV sanding primer is coated at the energy of 250-300mJ/cm²Drying and curing;

(3) continuously roll-coating to prepare UV sanding primer, wherein the roll-coating direction is that the UV sanding primer is coated along one time, then the UV sanding primer is coated in the reverse direction once, and the coating amount is controlled to be 30-40g/m²The UV sanding primer is applied at the energy of 280-300mJ/cm²Drying and curing;

(4) the surface of the dried and cured UV sanding primer is sanded, dust is removed, UV matte finish paint is roll-coated on the plate surface, and the coating amount of the UV matte finish paint is controlled to be 30-40g/m²And then entering an ultra-matte finishing machine for matte finishing, wherein the air inlet pressure of nitrogen of the ultra-matte finishing machine is 6bar, the purity of the nitrogen is not less than 99%, the temperature is not lower than 20 ℃, L ED pre-curing energy is adjusted to 10%, the energy of a matte lamp is adjusted to 10-15%, and UV drying and curing are carried out, so that the matte finishing board with the matte finishing degree of 0.9 is obtained.

Example 2

A coating process of a matte veneer comprises the following steps:

(1) cleaning dust on the surface of the substrate, filling and sealing the pore of the duct of the substrate with UV putty, wherein the coating weight is 40-50g/m²UV putty is applied at the energy of 150-200mJ/cm²Drying and curing, filling and sealing the catheter pores of the substrate with UV putty paint for the second time, wherein the coating weight is 40-50g/m²Filling and sealing the UV putty at the energy of 250-300mJ/cm²Drying and curing;

(2) after filling and sealing are done, the surface of the UV putty is sanded, dust on the surface of the plate is cleaned, UV sanding primer is made by roller coating, and the coating amount is controlled to be 20-25g/m²The roller coating direction is two times along with paint coating, and the UV sanding primer is coated at the energy of 250-300mJ/cm²Drying and curing;

(3) continuously roll-coating to prepare UV sanding primer, wherein the roll-coating direction is that the UV sanding primer is coated along one time, then the UV sanding primer is coated in the reverse direction once, and the coating amount is controlled to be 30-40g/m²Applying UV sanding primer toThe amount is 280-300mJ/cm²Drying and curing;

(4) the surface of the dried and cured UV sanding primer is sanded, dust is removed, UV matte finish paint is roll-coated on the plate surface, and the coating amount of the UV matte finish paint is controlled to be 30-40g/m²And then entering an ultra-matte finishing machine for matte finishing, wherein the air inlet pressure of nitrogen of the ultra-matte finishing machine is 5bar, the purity of the nitrogen is not less than 99%, the temperature is not lower than 20 ℃, L ED pre-curing energy is adjusted to 10%, the energy of a matte lamp is adjusted to 10-15%, and UV drying and curing are carried out, so that the matte finishing board with the matte finishing degree of 1.1 is obtained.

Example 3

A coating process of a matte veneer comprises the following steps:

(1) cleaning dust on the surface of the substrate, filling and sealing the pore of the duct of the substrate with UV putty, wherein the coating weight is 40-50g/m²Drying and curing the UV putty;

(2) coating UV sanding primer on the surface of the UV putty in a roller coating direction, wherein the roller coating direction is that the primer is coated along one time and then coated in the reverse direction once, and the coating amount is controlled to be 25-30g/m²At an energy of 280-300mJ/cm²Drying and curing;

(3) the surface of the dried and cured UV sanding primer is sanded, dust is removed, UV matte finish paint is roll-coated on the plate surface, and the coating amount of the UV matte finish paint is controlled to be 30-40g/m²And then entering an ultra-matte finishing machine for matte finishing, controlling the air inlet pressure of nitrogen of the ultra-matte finishing machine to be 7bar, controlling the purity of the nitrogen to be not less than 99%, controlling the temperature not to be lower than 20 ℃, regulating L ED pre-curing energy to be 10%, regulating the energy of a matte lamp to be 10-15%, and carrying out UV drying and curing to obtain the matte finishing board with the matte finishing degree of 1.5.

Comparative example 1

A coating process of a matte veneer comprises the following steps:

(1) cleaning dust on the surface of the substrate, filling and sealing the pore of the duct of the substrate with UV putty, wherein the coating weight is 44-46g/m²UV putty is applied at the energy of 150-200mJ/cm²Drying and curing, filling and sealing the catheter pores of the substrate with UV putty paint for the second time, wherein the coating weight is 40-50g/m²Will beThe filled and sealed UV putty has the energy of 250-300mJ/cm²Drying and curing;

(2) after filling and sealing are well done, the surface of the UV putty is sanded, dust on the surface of the plate is cleaned, UV sanding primer is made by roller coating, and the coating amount is 20-25g/m²The roller coating direction is two times along with paint coating, and the UV sanding primer is coated at the energy of 250-300mJ/cm²Drying and curing;

(4) the surface of the dried and cured UV sanding primer is sanded, dust is removed, UV matte finish paint is roll-coated on the plate surface, and the coating amount of the UV matte finish paint is controlled to be 30-40g/m²And performing matte finishing to obtain the matte veneer with the matte degree of 30.

Comparative example 2

A coating process of a matte veneer comprises the following steps:

(4) and (3) sanding the surface of the dried and cured UV sanding primer, removing dust, rolling finish on the plate surface, and performing matte treatment, wherein the air inlet pressure of nitrogen of a super-matte machine is 4-7bar, the purity of the nitrogen is not less than 99%, the temperature is not lower than 20 ℃, L ED pre-curing energy is adjusted to 10%, the energy of a matte lamp is adjusted to 10-15%, and UV drying and curing are performed to obtain the matte veneer with the matte degree of 3.2.

Comparative example 3 is a matte veneer currently on the market.

Product effectiveness testing

The performance tests and the effect tests were performed on examples 1 to 3 and comparative examples 1 to 3, and the results shown in table 1 were obtained:

TABLE 1

The data in the table 1 show that the hardness of the matte veneer produced by the invention can reach more than 3H, the wear resistance can reach 1200 turns, and when the surface is scratched by a foreign object with the hardness of more than 3H, the matte veneer can be repaired by using hot steam.

Claims

1. The coating process of the matte veneer is characterized by comprising the following steps of:

(2) sanding and dedusting the dried and cured base material, coating a UV sanding primer, and drying and curing the UV;

(4) removing dust from the semi-finished board, roller-coating UV matte finish, performing matte treatment in a super-matte machine, and performing UV drying and curing to obtain a matte decorative board; the condition parameters of the super-matte finishing machine are as follows: the nitrogen inlet pressure is 4-7bar, the nitrogen purity is more than or equal to 99 percent, and the temperature is 20-50 ℃.

2. The coating process according to claim 1, wherein the coating amount of the roller coating putty paint in the step (1) is 40-50g/m²。

3. The coating process according to claim 1, wherein the step (1) of roll coating putty paint, the specific process of UV drying and curing is as follows: firstly, carrying out first UV drying and curing by using the roller coating putty paint, then carrying out roller coating putty paint, and carrying out second UV drying and curing to obtain the pretreated base material.

4. The coating process as claimed in claim 3, wherein the energy for the first UV drying and curing is 150-200mJ/cm²The energy of the second UV drying curing is 250-300mJ/cm²。

5. The coating process according to claim 1, wherein the coating amount of the step (2) is 20 to 25g/m²。

6. The coating process according to claim 1, wherein the coating amount of the continuous coating in the step (3) is 30-40g/m²。

7. The coating process according to claim 1, wherein the UV matte finish paint in the step (4) comprises the following components in parts by weight: 20-30 parts of UV resin, 0.1-0.5 part of defoaming agent, 1-4 parts of dispersing agent, 10-19 parts of flatting agent, 5-20 parts of filler, 3-8 parts of initiator, 0.1-1 part of flatting agent and 1-2 parts of anti-settling agent.

8. The coating process according to claim 1, wherein the L ED pre-curing energy of the super-matte finishing machine in the step (4) is adjusted to 10-15%, and the energy of the matte lamp is adjusted to 10-15%.

9. The method of claim 1The coating process is characterized in that the energy of the UV drying and curing in the step (4) is 400-450mJ/cm²。