CN111114082A

CN111114082A - Wear-resistant antistatic automobile armrest skin material

Info

Publication number: CN111114082A
Application number: CN201911335127.8A
Authority: CN
Inventors: 王庆凯; 肖焰; 李和平; 倪备; 郑彦明
Original assignee: Tianjin Haodi Rubber & Plastic Technology Co ltd
Current assignee: Tianjin Haodi Rubber & Plastic Technology Co ltd
Priority date: 2019-12-23
Filing date: 2019-12-23
Publication date: 2020-05-08

Abstract

The invention relates to a wear-resistant antistatic automobile handrail surface material which is composed of a protective layer, a surface layer, a flexible layer and a nylon mesh layer which are sequentially arranged from top to bottom, wherein the protective layer is antistatic wear-resistant gloss oil which comprises the following components in parts by mass: 30-35 parts of curable resin monomer, 10-30 parts of antistatic agent, 0.5-1 part of crosslinking agent, 1-2 parts of photo-initiation reagent, 1-1.5 parts of leveling agent and 50-60 parts of solvent. The protective layer in the wear-resistant antistatic automobile armrest skin material contains a certain amount of antistatic agent, so that the static phenomenon is greatly reduced or even eliminated, and the problem caused by static is finally eliminated or reduced.

Description

Wear-resistant antistatic automobile armrest skin material

Technical Field

The invention belongs to the field of automotive interior parts, and relates to a skin material, in particular to a wear-resistant antistatic automobile handrail skin material.

Background

With the popularization of household automobiles and the rapid development of automobiles, the requirements of people on automobile interior materials are gradually increased. The skin of the automobile armrest is an important component of the interior trim of the automobile, wherein the skin can be divided into a TPO skin, a PVC skin and a PU skin. Static electricity is easily generated in the automobile during the driving process of the automobile, and the static electricity easily causes the interior decoration to adsorb impurities such as dust in the air, so that the aesthetic property is reduced; and when the clothes are dry in winter, the generation of static electricity can bring discomfort to customers. In addition, the automobile handrail is a place frequently contacted by a human arm, and the automobile handrail is particularly easy to wear to influence the appearance of an automobile interior.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the automobile skin which can effectively resist static electricity and is wear-resistant. The surface layer of the surface layer is coated with an anti-static wear-resistant UV-cured gloss oil protective layer, and the gloss oil contains an antistatic agent, so that the resistivity can be effectively reduced, the trouble caused by static is greatly reduced, and meanwhile, the smooth wear-resistant performance of the UV-cured gloss oil is excellent.

The technical scheme adopted by the invention for solving the technical problem is as follows:

the wear-resistant antistatic automobile armrest skin material comprises a protective layer, a surface layer, a flexible layer and a nylon mesh layer. The protective layer of the surface skin is antistatic wear-resistant gloss oil which comprises the following components in parts by weight: 30-35 parts of curable resin monomer, 10-30 parts of antistatic agent, 0.5-1 part of crosslinking agent, 1-2 parts of photo-initiation reagent, 1-1.5 parts of leveling agent and 50-60 parts of solvent.

And the curable resin monomer is one or a mixture of more than two of TMPTA, HDDA and TPGDA.

And the antistatic agent is one or two of polyether antistatic agent and quaternary ammonium salt antistatic agent.

And the cross-linking agent is N, N-methylene bisacrylamide.

Furthermore, the photoinitiator is 2,4, 6-trimethylbenzoyl-phenylphosphine oxide.

Moreover, the leveling agent is digao 410.

And the solvent is one or a mixture of two of butanone, acetone and ethyl acetate.

Moreover, the skin layer is made of natural or artificial leather and has a thickness of 0.50mm-0.8 mm.

Moreover, the flexible layer is EVA foaming sponge or rubber foaming sponge.

Moreover, the mesh number of the nylon mesh layer is 800-1000 meshes.

The anti-static wear-resistant gloss oil is cured after UV radiation, and in the photocuring process, free radicals and cationic active centers initiated by the UV radiation are subjected to chain transfer to the contact surface of the polyolefin foaming layer, so that the adhesive force of the UV photocuring coating and the surface layer is improved, complete curing is realized within 7-10 seconds, and the anti-static wear-resistant gloss oil has excellent anti-static and wear-resistant properties.

A preparation method of a wear-resistant antistatic automobile armrest skin material comprises the following steps:

(1) preparing antistatic wear-resistant UV curing gloss oil, sequentially adding a curing resin monomer, an antistatic agent, a cross-linking agent, a photo-initiation reagent, a flatting agent and a solvent into a container according to a proportion, stirring for 2-8 hours in a high-speed stirring dispersion machine with the rotation speed of 400-1500 rpm, and grinding the stirred ink for 3-6 times by a three-roll grinder to ensure that the fineness of the ink is less than 10 microns for later use.

(2) And uniformly coating the prepared gloss oil on the surface of the natural leather or the artificial leather by using a coating machine, and then curing the gloss oil on the surface of the natural leather or the artificial leather by using a UV curing machine to form a protective layer.

(3) And uniformly coating adhesives on two sides of the flexible layer, and forming sandwich type hot press molding of the flexible layer, the leather and the nylon mesh fabric layer by a hot press.

(4) And cutting the semi-finished product subjected to hot press forming into the required automobile handrail surface by a cutting machine.

The invention has the advantages and positive effects that:

1. the protective layer in the wear-resistant antistatic automobile armrest skin material contains a certain amount of antistatic agent, so that the static phenomenon is greatly reduced or even eliminated, and the problem caused by static is finally eliminated or reduced.

2. The wear-resistant antistatic automobile handrail surface skin material disclosed by the invention has excellent wear resistance of the protective layer after being cured by UV (ultraviolet), so that the wear resistance of the automobile handrail is improved, the service life of the automobile handrail is prolonged, and the comfort in an automobile is improved.

3. The flexible layer in the wear-resistant antistatic automobile handrail surface skin material improves the comfort of the handrail and reduces the bumping sense in the automobile movement.

Drawings

Fig. 1 is a schematic cross-sectional view of a wear-resistant and antistatic automobile armrest skin material.

Wherein 1 represents a protective layer, 2 represents a skin layer, 3 represents a flexible layer, and 4 represents a nylon mesh layer.

Detailed Description

The present invention is further illustrated by the following specific examples, which are intended to be illustrative, not limiting and are not intended to limit the scope of the invention.

Example 1

A wear-resistant antistatic automobile handrail surface material comprises a protective layer, a natural leather surface layer, an EVA foaming sponge layer and a nylon mesh layer.

The protective layer of the surface skin is antistatic wear-resistant gloss oil which comprises the following components in parts by weight: 30 parts of curable resin monomer (TMPTA), 10 parts of polyether antistatic agent, 0.5 part of crosslinking agent (N, N-methylene bisacrylamide), 1 part of photo-initiating agent (2,4, 6-trimethylbenzoyl-phenylphosphine oxide), 1 part of leveling agent digao 410 and 50 parts of solvent butanone.

A preparation method of a wear-resistant antistatic automobile watch holder comprises the following steps:

⑴ preparing antistatic wear-resistant UV curable gloss oil, sequentially adding a curable resin monomer, an antistatic agent, a cross-linking agent, a photo-initiation reagent, a leveling agent and a solvent into a container according to a proportion, stirring for 2 hours in a high-speed stirring dispersion machine with the rotation speed of 400 r/h, and grinding the stirred ink for 3 times by a three-roller grinder to ensure that the fineness of the ink is less than 10 microns for later use.

⑵ the prepared gloss oil is evenly coated on the surface of the natural leather or the artificial leather by using a coating machine, and then the gloss oil is solidified on the surface of the natural leather by a UV solidification machine to form a protective layer.

⑶ coating adhesive on both sides of the flexible layer, and forming sandwich type hot press molding of the flexible layer, leather and nylon mesh fabric layer by hot press at 40 deg.C under 1 MPa.

⑷ the semi-finished product is cut into required automobile handrail surface by a cutter.

Example 2

A wear-resistant antistatic automobile handrail surface material comprises a protective layer, a natural leather surface layer, an ethylene propylene diene monomer foamed sponge layer and a nylon mesh layer.

The protective layer of the surface skin is antistatic wear-resistant gloss oil which comprises the following components in parts by weight: 35 parts of curable resin monomer (HDDA), 30 parts of quaternary ammonium antistatic agent, 1 part of crosslinking agent (N, N-methylene bisacrylamide), 2 parts of photo-initiating agent (2,4, 6-trimethylbenzoyl-phenylphosphine oxide), 1.5 parts of leveling agent digao 410 and 60 parts of solvent acetone.

⑴ preparing antistatic wear-resistant UV curable gloss oil, sequentially adding curable resin monomer, antistatic agent, cross-linking agent, photo-initiation reagent, leveling agent and solvent into a container according to a proportion, stirring for 8 hours in a high-speed stirring dispersion machine with the rotation speed of 1500 r/h, and grinding the stirred ink for 6 times by a three-roller grinding machine to ensure that the fineness of the ink is less than 10 microns for later use.

⑵ the prepared gloss oil is evenly coated on the surface of the natural leather by a coater, and then the gloss oil is solidified on the surface of the natural leather or the artificial leather by a UV solidification machine to form a protective layer.

⑶ coating adhesive on both sides of the flexible layer, and forming sandwich type hot press molding of the flexible layer, leather and nylon mesh fabric layer by hot press at 45 deg.C under 1 MPa.

Example 3

A wear-resistant antistatic automobile handrail surface material comprises a protective layer, an artificial leather surface layer, a styrene butadiene rubber foaming sponge layer and a nylon mesh layer.

The protective layer of the surface skin is antistatic wear-resistant gloss oil which comprises the following components in parts by weight: 33 parts of curable resin monomer (TPGDA), 20 parts of quaternary ammonium antistatic agent, 1.3 parts of crosslinking agent (N, N-methylenebisacrylamide), 1.5 parts of photo-initiating agent (2,4, 6-trimethylbenzoyl-phenylphosphine oxide), 1.2 parts of leveling agent digao 410 and 55 parts of solvent ethyl acetate.

⑴ preparing antistatic wear-resistant UV curable gloss oil, sequentially adding curable resin monomer, antistatic agent, cross-linking agent, photo-initiation reagent, leveling agent and solvent into a container according to a proportion, stirring for 6 hours in a high-speed stirring dispersion machine with the rotation speed of 1000 r/h, and grinding the stirred ink for 4 times by a three-roller grinder to ensure that the fineness of the ink is less than 10 microns for later use.

⑵ the prepared gloss oil is evenly coated on the surface of the natural leather or the artificial leather by using a coating machine, and then the gloss oil is solidified on the surface of the artificial leather by a UV solidification machine to form a protective layer.

⑶ coating adhesive on both sides of the flexible layer, and forming sandwich type hot press molding of the flexible layer, leather and nylon mesh layer by hot press at 46 deg.C under 1 MPa.

The abrasion resistance and antistatic property of the above examples were measured in comparison with those of ordinary products, and the results are shown in the following table:

	example 1	Example 2	Example 3	General products
					RCA wear resistance	7000	6847	6921	5000
Antistatic property	Non-static electricity	Non-static electricity	Non-static electricity	Micro static electricity

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the inventive concept, and these changes and modifications are all within the scope of the present invention.

Claims

1. The wear-resistant antistatic automobile armrest skin material is characterized in that: the anti-static wear-resistant gloss oil comprises a protective layer, an epidermal layer, a flexible layer and a nylon net cloth layer, wherein the protective layer, the epidermal layer, the flexible layer and the nylon net cloth layer are sequentially arranged from top to bottom, the protective layer is anti-static wear-resistant gloss oil, and the anti-static wear-resistant gloss oil comprises the following components in parts by mass: 30-35 parts of curable resin monomer, 10-30 parts of antistatic agent, 0.5-1 part of crosslinking agent, 1-2 parts of photo-initiation reagent, 1-1.5 parts of leveling agent and 50-60 parts of solvent.

2. The wear-resistant and antistatic automobile armrest skin material as claimed in claim 1, wherein: the curable resin monomer is one or a mixture of more than two of TMPTA, HDDA and TPGDA.

3. The wear-resistant and antistatic automobile armrest skin material as claimed in claim 1, wherein: the antistatic agent is one or two of polyether antistatic agent and quaternary ammonium salt antistatic agent.

4. The wear-resistant and antistatic automobile armrest skin material as claimed in claim 1, wherein: the cross-linking agent is N, N-methylene bisacrylamide.

5. The wear-resistant and antistatic automobile armrest skin material as claimed in claim 1, wherein: the photoinitiator is 2,4, 6-trimethylbenzoyl-phenylphosphine oxide.

6. The wear-resistant and antistatic automobile armrest skin material as claimed in claim 1, wherein: the leveling agent is digao 410.

7. The wear-resistant and antistatic automobile armrest skin material as claimed in claim 1, wherein: the solvent is one or a mixture of two of butanone, acetone and ethyl acetate.

8. The wear-resistant and antistatic automobile armrest skin material as claimed in claim 1, wherein: the skin layer is natural or artificial leather, and the thickness is 0.50mm-0.8 mm.

9. The wear-resistant and antistatic automobile armrest skin material as claimed in claim 1, wherein: the flexible layer is EVA foaming sponge or rubber foaming sponge.

10. The preparation method of the wear-resistant antistatic automobile armrest skin material as claimed in any one of claims 1 to 9, characterized in that: the method comprises the following steps:

(1) preparing antistatic wear-resistant UV curing gloss oil, sequentially adding a curing resin monomer, an antistatic agent, a cross-linking agent, a photo-initiation reagent, a leveling agent and a solvent into a container according to a proportion, stirring for 2-8 hours in a high-speed stirring dispersion machine with the rotation speed of 400-1500 rpm, and grinding the stirred ink for 3-6 times by a three-roll grinder to ensure that the fineness of the ink is less than 10 micrometers for later use;

(2) uniformly coating the prepared gloss oil on the surface of the natural leather or the artificial leather by using a coating machine, and then curing the gloss oil on the surface of the natural leather or the artificial leather by using a UV curing machine to form a protective layer;

(3) uniformly coating adhesives on two sides of the flexible layer, and forming sandwich type hot press molding on the flexible layer, the leather and the nylon mesh fabric layer through a hot press;