KR101987017B1 - Method for forgery prevention and security ink - Google Patents

Abstract

The present invention relates to a forgery prevention method which uses magnetic particles including magnetic bodies having the same composition but different magnetic characteristics to manufacture different ink, and applies the ink to different regions of an object. Therefore, authenticity cannot be determined through composition analysis, but the authenticity can be determined only through a precise change and difference of magnetic characteristics.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a method for forgery prevention and security ink,

The present invention relates to a method for preventing forgery of articles requiring security and a security ink for use in an anti-falsification method.

A variety of goods for which authenticity is important require a means to prevent counterfeiting. Typically, securities such as currencies, checks, and bonds with value should be applied as a means to prevent counterfeiting.

Various security elements are used to prevent forgery, and it is possible to show certain changes to specific external stimuli such as substances whose properties can be changed by stimulation of physical, optical, and chemical, or substances whose color may change depending on the viewing angle Substances are suitable as a security element.

For example, it is possible to prevent foaming by including flakes formed in multiple layers of ink used for printing and exhibiting various colors depending on the interference color, or magnetic substances whose magnetic characteristics are changed by an external magnetic field. Or a method of preventing forgery by forming a specific structure such as Korean Patent Publication No. 10-2017-0012353 is also known.

However, even in the presence of various anti-counterfeiting elements and anti-counterfeiting methods, it is difficult to guarantee complete anti-counterfeiting, and therefore researches on continuous anti-counterfeiting elements and methods are needed.

Korean Patent Publication No. 10-2017-0012353

The present invention relates to an anti-falsification method and an anti-falsification method which can prevent falsification and modulation of an article by using magnetic particles having the same composition but different magnetic properties and having a specific multilayer coating layer formed thereon, Security ink.

The present invention provides a method for producing a magnetic recording medium, comprising the steps of: applying a first ink containing first magnetic particles containing a hard magnetic material as a magnetic material to a first region of a surface to be printed; and applying a second ink containing a soft magnetic material And applying a second ink containing magnetic particles, wherein the composition of the hard magnetic body and the soft magnetic body is the same.

The present invention relates to a magnetic recording medium comprising a first ink including first magnetic particles containing a hard magnetic material and a second ink including second magnetic particles including a soft magnetic material and has the same composition of hard magnetic material and soft magnetic material, 1 ink and the second ink are contained in different containers.

The anti-falsification method and the security ink of the present invention can detect authenticity of the article by using a magnetic material having the same composition and having different magnetic characteristics, and can accurately determine the authenticity of the article through precise measurement of the magnetic property.

1 shows an example in which the anti-counterfeiting method of the present invention is applied to banknotes.

Hereinafter, the present invention will be described in detail. The terms used in the present specification should be construed as generally understood by a person having ordinary skill in the art unless otherwise defined. It is to be understood that the drawings and embodiments are not intended to limit the scope of the present invention, which is not intended to limit the scope of the present invention. It is not.

The present invention relates to an anti-falsification method and a security ink which can prevent falsification.

The anti-falsification method of the present invention includes the steps of applying a first ink containing first magnetic particles containing a hard magnetic body as a magnetic material to a first region of a surface to be printed, and forming a soft magnetic material And applying a second ink containing the second magnetic particles, wherein the composition of the hard magnetic body and the soft magnetic body is the same.

In the present invention, the printing object preferably includes a banknote, a check, and a bond as securities, and may include the entirety of a printable and valuable article.

In the present invention, the first area and the second area are representations for distinguishing two or more areas in a plurality of print areas. The first area and the second area may be completely different areas, but some areas may overlap . In addition to the first area and the second area, a third area, a fourth area, and the like may be further included as needed.

In the present invention, the first magnetic particle and the second magnetic particle are used to distinguish two or more different magnetic particles from each other in a plurality of magnetic particles, and each of the first magnetic particles and the second magnetic particles may include different magnetic materials. When the first magnetic particles include a soft magnetic material, the second magnetic particles include a hard magnetic material, and when the first magnetic particles include a hard magnetic material, the second magnetic particles may include a soft magnetic material.

In the present invention, the first ink and the second ink are representations for distinguishing a plurality of inks having different magnetic particles, and the first ink and the second ink may be applied (applied) to different regions.

In the present invention, each of the hard magnetic body and the soft magnetic body included in the first magnetic particle and the second magnetic particle has the same composition but different magnetic characteristics. The hard magnetic body is hard to magnetize but may be a magnetic body which is difficult to demagnetize once it is magnetized, and the soft magnetic body can easily magnetize but can easily disappear due to extinction of the external magnetic field. In the present invention, the hard magnetic body and the soft magnetic body can be used in a relative expression to each other.

In the present invention, the first magnetic particle containing the hard magnetic body is smaller in the saturation magnetization than the second magnetic particle containing the soft magnetic material, but the residual magnetization may be larger than the second magnetic particle. Further, the first magnetic particles including the hard magnetic body may have a larger coercive force than the second magnetic particles including the soft magnetic body. It is possible to determine whether the article is genuine or not by measuring the magnetic characteristics in the first region and the second region of the surface to be printed by the difference between the magnetic characteristics of the first magnetic particle and the second magnetic particle. Although the first magnetic particle and the second magnetic particle contain a magnetic substance having magnetic properties that are different from each other, since the composition of the magnetic substance is the same, it is impossible to know whether the magnetic substance is true or not through composition analysis such as element analysis.

In the present invention, each of the hard magnetic body and the soft magnetic body included in the first magnetic particle and the second magnetic particle has the same composition but different magnetic characteristics. The hard magnetic body is hard to magnetize but may be a magnetic body which is difficult to demagnetize once it is magnetized, and the soft magnetic body can easily magnetize but can easily disappear due to extinction of the external magnetic field. In the present invention, the hard magnetic body and the soft magnetic body can be used in a relative expression to each other.

In the present invention, the first magnetic particle containing the hard magnetic body is smaller in the saturation magnetization than the second magnetic particle containing the soft magnetic material, but the residual magnetization may be larger than the second magnetic particle. Further, the first magnetic particles including the hard magnetic body may have a larger coercive force than the second magnetic particles including the soft magnetic body. It is possible to determine whether the article is genuine or not by measuring the magnetic characteristics in the first region and the second region of the surface to be printed by the difference between the magnetic characteristics of the first magnetic particle and the second magnetic particle. Although the first magnetic particle and the second magnetic particle contain a magnetic substance having magnetic properties that are different from each other, since the composition of the magnetic substance is the same, it is impossible to know whether the magnetic substance is true or not through composition analysis such as element analysis.

In the present invention, the heat treatment may be performed at a temperature of 800 DEG C or less, preferably 600 to 800 DEG C, and more preferably 650 to 800 DEG C. When the temperature of the heat treatment exceeds 800 ° C., the coercive force and the magnetization density (saturation / residual magnetization density) of most of the magnetic materials are drastically increased and it is difficult to finely control changes in the coercive force and the magnetization density. Most of the magnetic bodies recognized as magnetic bodies are produced. The hard magnetic material of the first magnetic particles is prepared by heat-treating the soft magnetic material of the second magnetic particles at a temperature higher than that of the soft magnetic material of the second magnetic particles. In the heat treatment process, It is possible to produce a hard magnetic body and a soft magnetic body which are classified by a desired magnetic standard.

According to an embodiment of the present invention, there is provided a magnetic recording medium comprising a first magnetic particle including a hard magnetic material and a second magnetic particle including a soft magnetic material, wherein the magnetic properties of the first magnetic particle and the second magnetic particle differ in a saturation magnetization, a residual magnetization and a coercive force, Can exhibit a certain tendency. By using the different magnetic properties of the first magnetic particle and the second magnetic particle, it is possible to manufacture different first and second inks respectively including the first magnetic particle and the second magnetic particle, Can be printed on different areas on the surface of the printing object to produce an article having a security effect. More specifically, since the first region printed with the first ink and the second region printed with the second ink contain a magnetic substance having the same composition, no difference can be detected through the analysis of the components of the ink, The authenticity of the article can be confirmed through the difference in magnetic properties (saturation magnetization, residual magnetization, coercive force, etc.) appearing in the first and second regions due to extinction. The difference between the magnetic properties of the hard magnetic body and the soft magnetic body of the present invention is very small, and it is possible to determine whether the magnetic force is true or false only through a precision machine.

According to an embodiment of the present invention, the magnetic properties of the first region and the second region to which the first ink and the second ink are applied are measured, a magnetic field of the same intensity is simultaneously applied to the first region and the second region The magnetic properties are measured and the magnetic properties are measured after the magnetic field is extinguished. Then, the authenticity is determined through the quantitative values of the magnetic characteristics and the quantitative changes of the magnetic characteristics measured before the magnetic field application, during the magnetic field application and after the magnetic field disappearance can do. Changes in magnetic characteristics occurring in different regions may be different depending on the measurement of the magnetic property with the change of the time of applying the magnetic field or the change of the time left until the measurement of the magnetic property after the disappearance of the magnetic field, More precise anti-counterfeiting methods may be possible by using it as an additional variable.

In the present invention, the ink may be prepared by mixing at least one component selected from the group consisting of a colorant, a varnish, a solvent, a dispersing agent and an extender pigment (filler) together with magnetic particles.

The coloring agent may include a pigment representing the color used in ink production, and may be used in an amount of from 5 to 15% by weight, preferably from 8 to 12% by weight, more preferably from 7 to 12% by weight, But is not limited thereto.

Varnish can enhance the adhesion of the ink and protect the magnetic particles from external stimuli. The varnish may be at least one selected from the group consisting of alkyd varnish, alkyd resin varnish, urea resin varnish, phenol resin varnish, melamine resin varnish, polyurethane resin varnish and urea resin varnish, or a mixture of two or more selected from these groups And the type of varnish is not particularly limited. The amount of the varnish to be used may be 10 to 30% by weight, preferably 15 to 25% by weight, based on the total composition of the ink.

The solvent may be a mixture of a glycol ether solvent such as diethyl glycol monobutyl ether, diethylene glycol monoethyl ether, and diethylene glycol monomethyl ether, and a hydrocarbon solvent, but is not limited thereto. The solvent may be used in an amount of 5 to 10% by weight, preferably 3 to 7% by weight, more preferably 2 to 5% by weight based on the total composition of the ink composition, but is not limited thereto.

In the present invention, the extender pigment may be silicon dioxide, talc, barium sulfate, calcium carbonate or the like and is not particularly limited. But it is not limited to 20 to 30% by weight, preferably 20 to 25% by weight based on the entire ink composition.

In addition, wax, fatty acid, moisture adsorbent, etc. may be further used in the production of ink.

In the present invention, the magnetic properties of the first region and the second region are preferably measured using a magnetoresistance sensor including a magnetized electromagnet, but the present invention is not limited thereto.

The magnetic material included in the magnetic particles of the present invention may be a magnetic material containing at least one selected from the group consisting of Fe, Cu, Al, Ni, Co, Nb, Nd, Si, B, Cr and Sm. A more preferable magnetic material may be AlNiCo, FeCrCo or Cunife.

The magnetic substance manufacturing method of the present invention is preferably manufactured by the water atomization method.

The raw material of the magnetic material is melted and solidified in an inert atmosphere to prepare an ingot, the ingot is melted in an inert atmosphere, the fine particles are produced by atomization using a cooling medium containing water and an antioxidant, The magnetic substance can be produced by air-flow classification of the heat-treated and heat-treated microparticles.

As the antioxidant, a reductive organic solvent, a reductive organic compound, or a mixture thereof may be used. As the antioxidant, it is preferable to use a compound containing urea, and as the reductive organic solvent, an alkanolamine is preferably included.

The cooling medium preferably contains 10 to 100 parts by weight of urea based on 100 parts by weight of water. It is preferable to adjust the cooling medium at a spraying pressure of 500 to 1000 bar to prepare a magnetic material having a uniform particle size distribution and a size suitable for ink production can do.

The magnetic material can be classified into a soft magnetic material and a light magnetic material by adjusting the heat treatment temperature in the heat treatment step of the fine particles. The heat treatment temperature may be 800 ° C or lower, preferably 600 to 800 ° C, and more preferably 650 to 800 ° C. It is possible to produce a hard magnetic body and a soft magnetic body which are classified according to the magnetic standards desired in the present invention by maintaining a temperature higher than 50 ° C (a temperature difference of more than 50 ° C) higher than the temperature for producing the soft magnetic body in the heat treatment process .

After the heat treatment, the particle size can be selected and then the manufacturing process can be performed. The material of the magnetic body may be appropriately selected depending on the magnetic body to be manufactured and may include one or more materials selected from the group consisting of Fe, Cu, Al, Ni, Co, Nb, Nd, Si, B, And a magnetic substance can be selected. More specifically, Al, Ni and Co may be used as raw materials for the magnetic substrate in the production of AlNiCo, Fe, Cr and Co may be used in preparing FeCrCo, or Cu, Ni and Fe may be used in producing CuNiFe.

The magnetic material of the present invention is preferably spherical and may have a plate-like shape for improving the reflectance, but it may have an excellent reflectance even when it is spherical.

In the present invention, the size of the magnetic body may be 0.4 to 20 占 퐉, 0.5 to 15 占 퐉, 0.5 to 10 占 퐉, but is not limited thereto. Preferably may be based on the distribution of the magnetic material particle size D ₉₀ is from 6 to 15㎛, 7 to 15㎛, the magnetic material of 8 to 15㎛. In consideration of the thickness of the multilayer coating layer and the size for easy application in printing in ink production, a magnetic material of 15 탆 or less may be preferable to the case of forming a multilayer coating layer in addition to the magnetic material.

The present invention can provide an ink set that can be used in the anti-counterfeiting method.

The ink set of the present invention comprises a first ink including first magnetic particles containing a hard magnetic material and a second ink including second magnetic particles containing a soft magnetic material and the composition of the hard magnetic material and the soft magnetic material is the same And the first ink and the second ink may be ink sets contained in different containers.

The first ink and the second ink of the ink set may be respectively applied to different areas of the article to be printed to perform the anti-counterfeiting method of the present invention.

Manufacture of magnetic particles and ink using AlNiCo magnetic material

(Aluminum powder, nickel powder, cobalt powder, titanium powder, copper powder and iron powder, purity of the raw material powder ≥ 99.9%) according to the composition shown in Table 1 below and then dissolved in an inert atmosphere and solidified to prepare an ingot Respectively.

element Al Ni Co Ti Cu Fe content
(weight%) 6 15 22 4 3 Remainder

1 kg of the thus-prepared ingot was heated by a high-frequency generator and placed in a crucible placed under an inert atmosphere, and the temperature was maintained at 1600 ° C to form an AlNiCo-based molten bath. For atomization, the molten metal was injected into a vacuum atomization confinement, and the cooling medium, in which the urea solution was 25 wt% urea dissolved, was sprayed at 600 bar through the annular spray nozzle.

The produced fine particles were heat-treated at 690 ° C (soft magnetic material 1), 750 ° C (hard magnetic material 1) and 800 ° C (light magnetic material 2), respectively, for 1 hour under an argon gas atmosphere.

The particles obtained after the heat treatment were flow-classified in a cyclonic manner under the conditions of a rotation speed of 7500 rpm and an air injection amount of 2.8 m ³ / min to give D50 of 8.2 탆 (soft magnetic material 1), 8.0 탆 (hard magnetic material 1) 2), and core particles having D90 of 14.0 占 퐉 (soft magnetic material 1), 14.1 占 퐉 (hard magnetic material 1), and 14.3 占 퐉 (hard magnetic material 2). Thereafter, the core particles obtained by air flow classification were washed twice with ethanol and then dried at 60 캜.

About 1 g was randomly sampled from the obtained core particles, and the central region of the particle cross-section was subjected to elemental analysis (10 kV, 100 sec) with EDS (Energy Dispersive X-Ray Spectroscopy, FEI company, Magellan 400) Elemental analysis was performed, and the standard deviation of the average composition and composition of each element was calculated, and it was confirmed that the desired magnetic material having the same composition was produced.

Coercivity, saturation magnetization (Ms) and residual magnetization (Mr) of the magnetic body were measured using VSM (vibrating sample magnetometer, Lakeshore, 7400 series) (Table 2).

Saturation magnetization (emu / g) Residual magnetization (emu / g) Coercive force (kA / m) Light magnetic body 1 120.39 10.02 17.02 Light magnetic body 2 122.74 19.24 35.78 Soft magnetic material 1 131.01 3.98 5.97

The prepared hard magnetic body (hard magnetic body 1 or hard magnetic body 2) and the soft magnetic body were made to have the same ink composition as shown in Table 3 below to prepare a first ink (including hard magnetic body) and a second ink (including soft magnetic body) .

Ink composition weight% First varnish
(Construction Chemicals, KR-KU) 18 Second varnish
(Construction Chemicals, KR-KA) 14 Filler 5 Extender pigment
(Dong Ho Calcium, TL-2000) 34 Magnetic body 10 Mixed wax
(Micro Powders, Polyfluo 540XF) 8 Aliphatic hydrocarbon
(SK chemicals, YK-D130) 2 solvent
(Diethylene glycol monobutyl ether) 2 Surfactants
(Korenul-263Na) 5 drier 2 Sum 100

The first ink and the second ink were prepared from the hard magnetic body 1, the hard magnetic body 2 and the soft magnetic body prepared by the above-described manufacturing method, and then applied to different areas of the paper surface. The saturation magnetization in the first region was measured to be smaller than that in the second region as a result of measurement of the magnetic properties of the region coated with the first ink containing the hard magnetic body and the second ink containing the soft magnetic body and the residual magnetization and the coercive force Was measured to be larger than the second area.

On the other hand, the magnetic properties measured after applying the ink made from hard magnetic body 1 and the ink made from hard magnetic body 2 to different regions were always measured in a region where ink containing hard magnetic body 2 was always applied.

100: Securities with anti-counterfeiting method applied
110: Securities
120: a first region to which a first ink containing first magnetic particles containing a hard magnetic material is applied
130: a second region to which a second ink containing a second magnetic particle containing a soft magnetic material is applied

Claims (5)

Applying a first ink including first magnetic particles containing a hard magnetic material as a magnetic material in a first region of a surface to be printed; And
Applying a second ink including second magnetic particles containing a soft magnetic material as a magnetic material in a second region of a surface to be printed; / RTI >
Wherein the hard magnetic body and the soft magnetic body have the same composition,
The first region and the second region are applied with a magnetic field having the same intensity at the same time to determine whether or not the magnetic characteristic is true or false according to the amount of quantitative change of the magnetic characteristic measured in each of the magnetic field application, Way.
The method according to claim 1,
Wherein the saturation magnetization of the first magnetic particle is smaller than that of the second magnetic particle and the residual magnetization is larger than the second magnetic particle.
3. The method of claim 2,
Wherein the coercive force of the first magnetic particles is larger than that of the second magnetic particles.
3. The method of claim 2,
The hard magnetic body of the first magnetic particles is produced from the same magnetic body as the soft magnetic body of the second magnetic particles by heat treatment at 800 DEG C or less,
Wherein the hard magnetic body is a hard magnetic body heat-treated at a temperature higher than 50 deg. C higher than the heat treatment for the soft magnetic body in the heat treatment process.
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