CN100533177C - Polymer material for laser hologram and preparation thereof - Google Patents

Abstract

The invention discloses a laser holographic using polymer material and preparing method thereof. The material includes the following formula (weight portion): 20-30 portions of thermoplastic acrylic resin, 10-20 portions of modified polyurethane resin, 5-10 portions of resin modifying agent, 1-2 portions of reaction initiating agent, 0.1-0.2 portions of reaction ending agent, 40-65 portions of solvent; the preparing method of the material includes resin polymerization reaction, solvent stirring, material mixing and the like technique steps. Compared with the prior technology, the invention has favorable stability, extensive applicability, fresh reflecting performance, weather resistance, solvent resistance and heat resisting property.

Description

Polymer material for laser hologram and preparation method thereof

Technical field

The present invention relates to functional security coating product, relate in particular to false proof with macromolecule polymeric material and preparation method thereof.

Background technology

Functional security coating product, comprise the anti-fake holographic film of aluminizing, transparent counterfeiting holographic film, anti-fake holographic stamping systems etc., they are to adopt the polyesters macromolecule plastic film, as BOPP, PET etc., they all have thermoplasticity, on when pressurization of heating can be with contour forging printing plate the interference fringe transfer printing of document image in its surface, the meticulous striped of these embossment shapes carries light wave intensity and the phase information of having recorded subject, this embossed hologram will be observed with daylight and reproduce image.Because the light of each wavelength in the white light all can be by interference fringe institute diffraction, and the angle of diffraction difference, so when different angles are watched, the image of different colours is arranged.

These products extensively are used to the anti-counterfeiting mark on the products such as all kinds of licences that credit card, government department issue, I.D., driver's license, passport, costoms forms, coin, brand clothing, electrical equipment at present.

At present, be used to prepare the starting material of holographic film products, the source difficulty, price is higher, and the demand that can not satisfy anti-fake product has restricted the development of false proof industry greatly constantly increasing.

Summary of the invention

The purpose of this invention is to provide a kind of polymer material for laser hologram and preparation method thereof,, satisfy the needs of industrial sector to overcome the above-mentioned mood that prior art exists.

Polymer material for laser hologram of the present invention comprises the component of following weight portion: 20～30 parts of thermoplastic acrylic resins, 10～20 parts of modified polyurethane resins, 5～10 parts of modifiers, 1～2 part of reaction initiator, 0.1～0.2 part of reaction terminating agent, 40～65 parts of solvents;

Said thermoplastic acrylic resin can be selected the A-11 of U.S. Rhom and Hass, B-82, B-72, one or more among the B-99 for use;

Said modified polyurethane resin is selected from acrylate modified polyurethane, epoxy resin modification polyurethane, the unsaturated polyester resin modified polyurethane, modified polyurethane trimerical one or more, can adopt the commercially available prod, as the product of German Bayer AG;

Said modifier is selected from more than one of amino resins, acryl resin, epoxy resin, melamine resin or vinylite;

Said reaction initiator can be selected the benzoyl peroxide of Akzo Nobel N.V. for use;

Said reaction terminating agent can be selected the chlorobenzoyl chloride reaction terminating agent for use, as the P-808 of the production of Shenzhen Paasche holder chemical industry Ltd;

Said solvent is selected from butanone, cyclohexanone or ethanol;

Said false proof preparation method with macromolecule polymeric material may further comprise the steps:

Successively with 40～60% of modified polyurethane resin, thermoplastic acrylic resin, modifier and total solvent weight, drop in the reactor, and reaction initiator is added drop-wise in the reactor in 20～30 minutes in the mode that drips, 60～70 ℃ of stirring reactions 1～3 hour, add reaction terminating agent then, stir, add the residual solvent dilution, obtain product.

Testing result shows, the high-speed coating performance has high gloss greater than 200m/ second, and antifalse effect is good, has splendid thermotolerance, extensive applicability, clarity, weatherability, solvent resistance and thermotolerance.

By above-mentioned disclosed technical scheme as seen, polymer material for laser hologram of the present invention, starting material convenient sources not only, no matter starting material itself and finished product all have outstanding stability, and be easy to prepare, is convenient to industrialization promotion and uses.

Embodiment

Below in conjunction with specific embodiment, the invention will be further described.

Embodiment 1

(1), and begins to stir earlier with in 30 kilograms of butanone, 10 kilograms of input reactors of methyl alcohol;

(2) then successively with in 20 kilograms of modified polyurethane resins, 20 kilograms of thermoplastic acrylic resins, 5 kilograms of input reactors of modifier, and 1 kilogram of reaction initiator is added drop-wise in the reactor in 30 minutes in the mode that drips, 70 ℃ continue to stir 3 hours, detect infrared spectrum, add 0.1 kilogram of reaction terminating agent, 10 kilograms of butanone, 10 kilograms of inputs of cyclohexanone are diluted, obtain product.

Thermoplastic acrylic resin is selected ROHM AND HAAS product A-11 for use;

Modified polyurethane resin is selected from modified polyurethane tripolymer resin,

Can select the product I L-1451 of Bayer AG for use;

Said modifier is selected from amino resins;

Said reaction initiator is selected from benzoyl peroxide;

Said reaction terminating agent is selected reaction terminating agent P-808 for use;

Adopt following method to detect:

The high precision of position during thermoprint: with the deviation of vernier caliper measurement thermoprint position

Thermotolerance test: under 150-160 ℃ of condition, carry out the thermoprint test, observe the whether variable color or frosting phenomenon occurs of coat side or hologram image

Thermoprint layer glossiness Gs (45 °): 3.4 regulation detects among the employing GB/T 10456-1989

The thermoprint sharpness: 3.4 regulation detects among the employing GB/T 10456-1989

Thermoprint layer wearing quality: the impaired area in friction back is not more than 2%

Testing result is as follows:

The high precision of position: deviation ± 0.2mm during thermoprint

Thermotolerance: 150 ℃ * 0.5 second

Thermoprint layer glossiness Gs (45 °): 〉=5%

Thermoprint sharpness: meet among the GB/T 10456-1989 3.4 regulation

Thermoprint layer wearing quality: the impaired area in friction back is not more than 2%

Embodiment 2

(1), and begins to stir earlier with in 20 kilograms of butanone, 20 kilograms of input reactors of methyl alcohol;

(2) then successively with in 30 kilograms of modified polyurethane resins, 10 kilograms of thermoplastic acrylic resins, 5 kilograms of input reactors of modifier, and 1 kilogram of reaction initiator is added drop-wise in the reactor in 30 minutes in the mode that drips, 70 ℃ continue to stir 1 hour, detect infrared spectrum, add 0.15 kilogram of reaction terminating agent, 20 kilograms of butanone, 10 kilograms of inputs of cyclohexanone are diluted, obtain product.

Thermoplastic acrylic resin is selected from ROHM AND HAAS product B-72;

Modified polyurethane resin is selected from the product I L-1351 of Bayer AG;

Said modifier is selected from amino resins;

Said reaction initiator is selected from benzoyl peroxide;

Said reaction terminating agent is selected reaction terminating agent P-808 for use;

Adopt following method to detect:

The high precision of position during thermoprint: with the deviation of vernier caliper measurement thermoprint position

Thermotolerance test: under 150-160 ℃ of condition, carry out the thermoprint test, observe the whether variable color or frosting phenomenon occurs of coat side or hologram image

Thermoprint layer glossiness Gs (45 °):

3.4 regulation detects among the employing GB/T 10456-1989

The thermoprint sharpness: 3.4 regulation detects among the employing GB/T 10456-1989

Thermoprint layer wearing quality: the impaired area in friction back is not more than 2%

Testing result is as follows:

The high precision of position: deviation ± 0.2mm during thermoprint

Thermotolerance: 160 ℃ * 0.5 second

Thermoprint layer glossiness Gs (45 °): 〉=5%

Thermoprint sharpness: meet among the GB/T 10456-1989 3.4 regulation

Thermoprint layer wearing quality: the impaired area in friction back is not more than 2.

Claims (7)

1. polymer material for laser hologram, it is characterized in that, be to adopt the component that comprises following weight portion to prepare: 20～30 parts of thermoplastic acrylic resins, 10～20 parts of modified polyurethane resins, 5～10 parts of modifiers, 1～2 part of reaction initiator, 0.1～0.2 part of reaction terminating agent, 40～65 parts of solvents.

2. polymer material for laser hologram according to claim 1, it is characterized in that said modified polyurethane resin is selected from more than one in acrylate modified polyurethane, epoxy resin modification polyurethane, unsaturated polyester resin modified polyurethane or the modified polyurethane tripolymer.

3. polymer material for laser hologram according to claim 1 is characterized in that said modifier is selected from more than one in amino resins, acryl resin, epoxy resin, melamine resin or the vinylite.

4. polymer material for laser hologram according to claim 1 is characterized in that said reaction initiator is selected benzoyl peroxide for use.

5. polymer material for laser hologram according to claim 1 is characterized in that said reaction terminating agent is selected P-808 for use.

6. polymer material for laser hologram according to claim 1 is characterized in that said solvent is selected from butanone, cyclohexanone or ethanol.

7. prepare the method for each said polymer material for laser hologram of claim 1～6, it is characterized in that, may further comprise the steps:

Successively with 40～60% of modified polyurethane resin, thermoplastic acrylic resin, modifier and total solvent weight, drop in the reactor, and reaction initiator is added drop-wise in the reactor in 20～30 minutes in the mode that drips, 60～70 ℃ of stirring reactions 1～3 hour, add reaction terminating agent then, stir, add the residual solvent dilution, obtain product.