JPS59114049A - Glass/plastics laminate - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for producing a glass/plastics laminate, which comprises bonding layers of transparent glass and plastics, and to the laminate.

Such laminates are used for various purposes such as interior and exterior glass windows of buildings. However, the most industrially important application for glass/plastics laminates may be in vehicle windows, especially automobile windshields. A windshield with a plastic layer on the inside of a car has various properties that are highly desirable, for example, to prevent the occupant's head from hitting the windshield and sustaining lacerations from glass fragments when the windshield is broken. have. The most advantageous situation in this sense is when the bond between the glass and the plastic is strong enough to retain the broken glass pieces, but the plastic does not tear when the windshield is broken. .

Such products should be as optically perfect as industrially possible and have good durability.

One of the problems encountered with such products relates to non-parallelism of the outer laminate surfaces either during initial manufacture or during use. Proposals to overcome this drawback have been proposed in UK Patent Application Nos. 8212668 and 8212669 by the applicant and in UK Patent Application No. 2074090 of BFG Glass Group.
These describe the conditions for bonding laminates.

Another problem encountered with such laminates is that the exposed plastic surfaces are relatively soft. Over time, for example due to careless cleaning, there is a tendency for wear and tear.

The present invention attempts to solve this problem.

Of course, it could be replaced with a relatively hard, wear-resistant plastic layer, which would tend to tear quite easily when the windshield is broken, thus eliminating the safety advantage of using a glass/plastic laminate. You will be killed.

It has been proposed to make a three-layer laminate of glass/soft plastics/thick resistant plastics.

However, there are many industrial problems in laminating one plastic layer on another.
This will result in a large number of rejected products.

Although it is easier to make a glass/plastics/glass laminate, this eliminates the safety advantage mentioned above (5).

It has also been proposed to apply a thin abrasion resistant coating of silica by vacuum deposition onto the plastic layer of a glass/plastics laminate, but this is too expensive to manufacture.

Accordingly, one of the objects of the present invention is to provide a wear-resistant glass/plastics laminate that is easy to manufacture.

In accordance with the present invention, after bonding the transparent glass and plastic layers, a uniform coating of a liquid, electron beam or ultraviolet curable resin composition is applied to the exposed plastic surfaces of the laminate and then cured in situ. A method of manufacturing a glass/plastics laminate is provided which is characterized by leaving a cohesive transparent surface coating that is more abrasion resistant than plastics materials.

By utilizing the present invention, a glass/plastics laminate having a plastic surface with excellent abrasion resistance can be manufactured without any substantial effect on glass/plastics adhesion, and the optical quality of the product can be improved. It can be manufactured without substantial modification to the geometry of the exposed plastic surfaces. For example, since virtually no heat is applied to cure the resin coating, the bond between the glass and the plastic is not increased to an undesirable degree, and the plastic layer is not There is also no risk of heating resulting in non-uniform thickness and resulting superficial defects. Another advantage of electron beam or ultraviolet curing is the fast curing rate and rapid formation of a wear-resistant surface.

The term "wear resistance" is an American national term) Lt -
A226.1 (1977) Abrasion Resistance (Plastics) Means resistance to abrasion as measured by Test MAx7 (using taper abraser) (ASTMD 1044-76).

Advantageously, such resin compositions contain a UV activator and are cured by UV radiation. The energy of ultraviolet rays required for curing in the presence of a photoactivator is less than the energy (7) - required for electron beam irradiation, and appears to have less influence on the quality of the plastic layer.

Preferably, the resin composition is applied by a roller method. This method allows a uniform coating to be applied simply and quickly.

The present invention includes glass/plastics laminates made by the methods described herein.

The invention also extends to intermediates for the manufacture of such glass/plastics laminates.

Thus, coating the plastic surface of a glass/plastic laminate with a curable resin composition containing a UV-activated composition can, upon curing, produce a cohesive transparent surface coating that is more abrasion resistant than the underlying plastic material. A laminate is provided which is characterized in that it supports an object.

There are also glass/plastic laminates characterized by carrying on the plastic surface a coating of a curable electron beam curable resin composition to create a cohesive transparent surface coating that is more abrasion resistant than the underlying plastic material. Provided.

Preferred embodiments of the present invention will be explained below by way of examples with reference to the accompanying drawings. The figure shows a glass/plastics laminate consisting of a glass sheet 1 and a plastics layer 2 bonded to it.

After adhesion, the free surface of the plastics layer 2 is coated with a transparent surface coating 3 and then hardened.

EXAMPLE 1 A process described in UK patent application no. A new glass/plastic product for automobile windshields was created.

An approximately 1 μm thick layer of an acrylic-based resin composition was then applied to the exposed surface of the polyvinyl chloride using a roller.

This resin composition was as follows.

(9) Trimethylolpropane triacrylate 14
1.6-hexanediol diacrylate (curing agent) 3
5 Benzophenone (photoinitiator)
The resin was cured by irradiation with 1.5 UV rays. It was found that this treatment did not affect the adhesive strength between the glass and plastic layers, nor did it affect the optical properties of the laminate. Next, the abrasion resistance of this laminate was determined according to American National Standard Z 26.1 (1977).
As specified in AS'rM D 1044-76 (
The test was conducted by rubbing 100 times under a load of 500y.

The ratio of diffused light to total transmitted light due to wear, the increase in cloudiness is 4
It was recognized that it was less than a percentage point.

Without the resin coating, the increase in haze when unprotected polyvinyl chloride (10)ride was similarly tested was approximately 30 percentage points.

Similar results were obtained when the resin coating was cured with an electron beam using a similar resin composition but without the UV sensitizer and photoinitiator. Similar results were also obtained when a glass/Ametora Glass (registered trademark) laminate was prepared by the method described in British Patent Application No. 8212668 and treated in the same manner.

Example 2 A pair of glass/plastics laminates for windshields, each consisting of three cod float glass sheets bonded to a 0.6 mm ply of polyurethane commercially available from Bayer AG, were prepared as described in Example 1 of British Patent Application No. 8212668. I made it like this.

One polyurethane ply of such a laminate was protected with a 1 μm coating made by applying with a roller a resin composition having the following composition.

Epoxy acrylate 50
Part by weight Trimethylolpropane triacrylate
30 (11t benzophenone (photoinitiator) 1
．． 5 This coating was cured by UV radiation. The optical properties of the laminate were unaffected. When the plastic surface of the laminate was subjected to the abrasion resistance test described in Example 1, it was found that the presence of the coating contributed to suppressing the increase in cloudiness. After polishing the unprotected sample, an additional 2% of the light transmitted by the laminate was found to be diffused. After polishing the protected samples, this diffusion increased by only 1%.

Similar results were obtained when a similar coating was applied to a glass/polyurethane laminate made by the method described in GB Patent Application No. 8212669.

Example 3 A resin having the following composition was used in place of the resin of Example 2.

Plex 6617-0 (registered trademark name> 4
0 parts by weight trimethylolpropane triacrylate
30 Benzophenone (photoinitiator)
1.5 BYK 344 (trademark Mallinckrodt) o5 (dispersant) This coating was cured and tested as in Example 2 with very similar results.

[Brief explanation of the drawing]

FIG. 1 is a sectional view of a glass/plastics laminate according to the present invention. In the figure, 1 is a glass sheet, 2 is a plastic layer, and 3 is a transparent surface coating. Patent applicant Gravelbel

Claims (1)

[Claims] 1. After adhering the transparent glass and plastic layer,
A uniform coating of a liquid e-beam or UV-curable resin composition is applied to the exposed plastic surface of the laminate and then cured in situ to form an adherent transparent surface coating that is more abrasion resistant than the underlying plastic material. A method for producing a glass/plastics laminate, characterized in that the glass/plastics laminate is made to remain. 2. The method according to claim 1, wherein the resin composition contains an ultraviolet activator and is cured by ultraviolet rays. 3. The method according to claim 1 or 2, wherein the resin composition is applied by a roller method. 4. A method as claimed in any of the preceding claims substantially as herein described. 5. A glass/plastics laminate manufactured by the method (2) according to any one of the above claims. 6. A coating of a curable resin composition containing a UV-activated composition on a plastic surface, which upon curing produces a cohesive transparent surface coating that is more abrasion resistant than the underlying plastic material. Characteristic glass/plastic laminate. 7. Glass carrying a coating of an electron beam curable resin composition curable on top of the plastic surface to produce a cohesive transparent surface coating that is more abrasion resistant than the underlying plastic material. Plastics laminate.