CN1763311A - Composite anti-false fiber - Google Patents

Abstract

The invention discloses a compound antifalsification fiber, which is characterized by the following: the inner layer of the fiber is amorphous alloy fiber and the outer layer is luminous material layer; the outer layer is on the inner layer amorphous alloy fiber through dying, adhering and embedding; the antifalsification fiber contains amorphous alloy electromagnetic property for apparatus detecting as well as luminous property for public or specialist identifying. Hence, the fiber can conclude one-wire, two-wire and three-wire antifalsification, which provides potential protection of paper money or analogue as well as increasing the difficulty of forgery.

Description

A kind of composite anti-counterfeiting fiber

Technical field

The present invention relates to be used for make the anti-false fiber of the paper of banknote, marketable securities, more specifically refer to a kind of composite anti-counterfeiting fiber, it is false proof that this composite anti-counterfeiting fiber not only has a line, but also have that the two wires is false proof, the electromagnetic property of three-way false proof usefulness and optical characteristics.

Background technology

Amorphous alloy has just begun progressively to grow up since nineteen sixty, U.S. professor Duwez invented rapid quenching technique, because the institutional framework of non-crystaline amorphous metal uniqueness, preparation technology, excellent material property efficiently make it become a theme of material science worker special concern.In in the past 40 years, be accompanied by the continuous progress of amorphous material basic research, preparation technology and application product exploitation, all kinds of amorphous materials have progressively moved towards practicability.From the magnetic characteristic angle, amorphous fiber can be divided into three major types, be Fe (iron) base of direct magnetostriction, Co (cobalt) base and the zero basic non-alloy fiber of magnetostrictive Fe-Co (iron-cobalt) of negative magnetostriction, they show big Barkhausen (Barkhausen), Ma Texi (Matteucci) and giant magnetoresistance effect respectively.Utilize these effects also can make amorphous fiber be used for pulse generation element, miniature transformer, surface mount inductance, anti-theft tag, rotary encoder, current sensor, displacement transducer, data handwriting pad etc.

In the document, about non-crystal metal fibre magnetic card and decision maker thereof, number of patent application is the decision maker that 01115974.X has reported a kind of non-crystal metal fibre magnetic card of card International Technology company development at home.This device is by detecting the magnetic signal that this noncrystalline magnetic metal fiber is passed through, and judged the good and bad feature of the magnetic card that inserts by detecting signal.

What in addition, U.S. Pat 4835028 (19890530) had been reported the modification paper product that is added with particular dye of can antistatic duplicating and accompanied the amorphous magnetic striction wire in the middle of two layers of paper is used to monitor the paper products (can be considered a kind of anti-theft tag) of this kind paper by article surveillance zones.U.S. Pat 6556139 has been reported a kind of magnetic labels that is attached on the commodity, has glass to coat amorphous magnetic microfibre in this label, utilize its externally the response under the magnetic field come recognition value.Yet, do not see as yet that up to the present relevant amorphous fiber is used for the report of marketable securities paper false proofs such as banknote.

At present, known cheque paper generally adopts technology such as watermark, safety line, false proof disk and anti-false fiber.With regard to anti-false fiber, general colored string, animal fiber, chemical fibre, the coloured or colourless fluorescent fiber of adopting, the public reaches false proof purpose by the existence of fiber in the identification paper, and the characteristic that fiber itself does not generally have machine readable to detect, therefore it can only be used for a line false proof (naked eyes are visual), just can't realize the purpose of two wires false proof (specific electromagnetic property can be machine-readable) and three-way false proof (" expert " analyzes).

Along with the progress of science and technology and the continuous development of anti-counterfeiting technology, people more and more hanker after a plurality of popular anti-counterfeiting characteristics and machine readable anti-counterfeiting characteristic and the anti-counterfeiting characteristic can " expert " analyzed are combined, and realize multiple anti-fake.Traditional anti-false fiber can not adapt to above demand as safety line.

Summary of the invention

The objective of the invention is above-mentioned shortcoming, a kind of composite anti-counterfeiting fiber is provided,, can be used in the paper of similar bank-note paper, carry out three-way false proof because this anti-false fiber has the electromagnetic property and the characteristics of luminescence at traditional anti-false fiber existence.

To achieve these goals, the present invention adopts following technical scheme,

A kind of composite anti-counterfeiting fiber, this fiber comprise inside and outside two layers, and internal layer is an amorphous alloy fiber, and skin is a luminous material layer, and skin dyes, adheres to, is coated on the amorphous alloy fiber of internal layer by being coated with.

Described alloy silk is amorphous state and has electromagnetic property.

Described amorphous alloy wire is based on Fe base, Co base or Fe-Co base noncrystal alloy fiber, or mixes with magnesium-yttrium-transition metal.

Described alloy silk is amorphous state and possesses the electromagnetic property and the characteristics of luminescence simultaneously.

Described outer field luminescent material is that luminescence generated by light, cathode-ray luminescence, electroluminescent, X ray are luminous, any material in the thermoluminescence material.

Described outer field luminescent material is that luminescence generated by light, cathode-ray luminescence, electroluminescent, X ray are luminous, the formed material of combination mutually between the thermoluminescence material.

Described luminescent material with silicate or organic high molecular compound or polymer as carrier.

The rare earth element that contains in the described luminescent material is meant that atomic number is that 57 to 71 lanthanide series rare-earth elements and atomic number are 39 yttrium.

In composite anti-counterfeiting fiber of the present invention, comprised inside and outside two layers, internal layer is an amorphous alloy fiber, and skin is a luminous material layer, and skin dyes, adheres to, is coated on the amorphous alloy fiber of internal layer by being coated with.This anti-false fiber also possesses the optics luminescent properties when possessing the amorphous alloy fiber electromagnetic characteristic.Its electromagnetic property can supply the instrument detecting true and false; The optics luminescent properties can be discerned the false from the genuine for the public or " expert ".Therefore this fiber be used for anti-forge paper can realize that a line is false proof, the two wires is false proof with three-way false proof mutually and deposit, additional mutually multiple anti-fake effect is for the multiple anti-fake of the paper of bank-note paper or analog provides sound assurance.Simultaneously, also can increase the difficulty of forgery significantly.

The specific embodiment

Composite anti-counterfeiting fiber of the present invention comprises inside and outside two layers, and internal layer is an amorphous alloy fiber, and skin is a luminous material layer, and skin dyes, adheres to, is coated on the amorphous alloy fiber of internal layer by being coated with.

Described alloy silk is amorphous state and has electromagnetic property perhaps have the electromagnetic property and the characteristics of luminescence simultaneously.

Described outer field luminescent material is that luminescence generated by light, cathode-ray luminescence, electroluminescent, X ray are luminous, any material in the thermoluminescence material.

Described outer field luminescent material is that luminescence generated by light, cathode-ray luminescence, electroluminescent, X ray are luminous, the formed material of combination mutually between the thermoluminescence material.

The related material with optical characteristics comprises following several in the cladding material of the present invention:

Embedded photoluminescent material

Embedded photoluminescent material is divided into three major types again: material for lamp, long-afterglow material and multi-photon material.

Material for lamp refers to the ultraviolet ray excited visible light by force that produces down at 254nm or 365nm etc., is about to the material that ultraviolet ray changes fluorescence into.Long-afterglow material can absorb the energy of sunshine or artificial light source and send the material of visible light, and this visible light still can continue luminous when night or the no excitation source in dark place for a long time.The multi-photon absorbing material has under infrared excitation, by absorbing the low infrared photon of several energy, and launches the last converting material of the higher optical photon of energy, is about to infrared ray and changes into visible light.

Cathode-ray luminescence material

Cathode-ray luminescence material converts electric energy to visible light signal under beam bombardment.This type of material comprises colour televistion phosphor, projection TV fluorescent material, terminal display fluorophor and voltage penetration type fluorophor etc.

Electroluminescent material

Electroluminescent material is meant under effect of electric field can directly convert electric energy to luminous energy, the material of active illuminating.Comprise AC electroluminescent powder material and powder dc electroluminescence material.

X ray luminous material

X ray luminous material is meant the energy that can absorb x-ray photon, and converts the material of near ultraviolet ray or visible light to.Mainly comprise rare-earth activated zirconyl oxyhalides lanthanum, the alkaline earth fluorine halide of Eu2+ activation, rare-earth activated rare-earth oxide sulfate, also comprise X ray image light stimulus fluorophor (PSL fluorophor).

The thermoluminescence material

The thermoluminescence material is after excited by ionisation radiation, to pass through thermal excitation again and luminous material, and the dosage of the intensity x radiation x suffered with it of its thermal glow peak matches.

The type of amorphous alloy fiber involved in the present invention and the outer kind that coats luminescent material, can make up as the case may be, selecting for use of luminescent material can be that a certain luminescent substance uses separately, also two or more luminescent substance can be made up by a certain percentage.

Described luminescent material with glass or organic high molecular compound or polymer as carrier.

The rare earth element that contains in the described luminescent material is meant that atomic number is that 57 to 71 lanthanide series rare-earth elements and atomic number are 39 yttrium.

Described amorphous alloy wire is based on Fe base, Co base or Fe-Co base noncrystal alloy fiber, or mixes with magnesium-yttrium-transition metal.

Example 1

Glass carrier consist of 30SiO220B2O320BaO5ZnO15Na2O10K2O, long after glow luminous material consist of SrAl2O4:Dy, Eu.Elder generation is fusion cast glass at a certain temperature, then glass grinding is become fine powder, mixes with long-persistence luminous powder, through follow-up calcine technology, can prepare long-afterglow luminescent glass.With the outer raw material of long-afterglow luminescent glass, can prepare the multiple anti-fake materials with function that has of the present invention as the preparation composite anti-counterfeiting fiber.

Example 2

Mix the borate glass that TB3+ activates with finite concentration Gd2O3, can make a Gd3+, the coactivated borate fluorescent glass of Tb3+, all higher to X ray absorption and conversion ratio.With the outer raw material of this borate fluorescent glass as the preparation composite anti-counterfeiting fiber.

Example 3

Press mass ratio, with 30 parts of ethylene-vinyl acetate copolymers (EVA), 40 parts of terpene resins, 10 parts of microwaxes, antioxidant 2,0.5 part of 6-BHT (BHT), luminescent material voltage penetration type fluorophor Y2O2S:Eu (red)+(Zn, Cd) S:Cu, Ni (green), or YVO4:Eu (red)+(Zn, Cd) S:Ag, 20 parts of Ni (green) are after mixing under 180 ℃ of conditions, adhere to or be coated on the amorphous alloy fiber skin, promptly make composite anti-counterfeiting fiber.This composite anti-counterfeiting fiber not only has the special electromagnetic effect of amorphous wire, and glows under low-energy electron beam excites, and along with voltage increases, ruddiness weakens, and green glow strengthens gradually, thereby produces the visible light of red, orange, yellow and green four kinds of colors.Ethylene-vinyl acetate copolymer (EVA) has thermoplasticity, and the softening fusion of part helps this composite anti-counterfeiting fiber and combines with paper fibre about 150 ℃, is used for paper false proof.

Example 4

Press mass ratio, 40 parts of polyethylene terephthalate (PET), 50 parts of Petropols, 1 part of antioxidant phosphite ester, under 190 ℃, stir, add 10 parts of X ray image light stimulus fluorophor BaFCl:Eu and BaFBr:Eu system materials, mix, this mixture is adhered to the amorphous alloy fiber skin, make composite amorphous alloy fiber.This fiber not only has common amorphous alloy wire and gets the special electromagnetic characteristic, and the X ray image light stimulus fluorophor BaFCl:Eu on its top layer and BaFBr:Eu system material are when being subjected to X-radiation, emittance can be stored, when with the He-Ne laser scanning, can discharge and the corresponding royal purple light of X ray energy.Polyethylene terephthalate (PET) has thermoplasticity, helps this kind composite anti-counterfeiting fiber and is used for paper false proof.

Example 5

Press mass ratio, under molten condition with 40 parts of polypropylene (PP), 40 parts of rosin, 0.5 part of mixing of antioxidant thiodipropionate, add rare-earth oxide sulfate Gd202S:Tb and La202S:Tb20 part and after even the mixing, be coated on the skin of amorphous alloy fiber, make composite anti-counterfeiting fiber.Under excitation of X-rays, the rare-earth oxide sulfate in this composite anti-counterfeiting fiber can be launched green visible light, has Application in Anti-counterfeiting and is worth.

Example 6

Press mass ratio, under molten condition, 20 parts of SISs (SIS), 60 parts of terpene resins, 10 parts of naphthenic oils, antioxidant are mixed for 0.5 part, add 10 parts of fluorophor again, mix and be coated on outside the amorphous alloy fiber, obtain composite anti-counterfeiting fiber.Ultraviolet ray excited down at 254nm, the anti-false fiber that is stained with different fluorophor can be launched different fluorescence, as contains the emission red fluorescence of Y2O3:Eu3+; The emission blue-fluorescence that contains BaMg2AL16027:Eu2+; The transmitting green fluorescence that contains Ce0.67Tb0.33Al11019.

Example 7

At amorphous alloy fiber outer coated two kinds of fluorescent material: Y2O3:Eu3+ and Sr2SiO82SrCl2:Eu2+ simultaneously, can be prepared into the composite amorphous alloy fiber of two waveband fluorescence.Under 254nm was ultraviolet ray excited, Y2O3:Eu3+ was luminous, and composite anti-counterfeiting fiber presents red fluorescence; Under the 365nm ultraviolet ray, Sr2SiO82SrCl2:Eu2+ is luminous, and composite anti-counterfeiting fiber presents blueness.

Example 8

With the sample substrate is 30SiO2-15Al01.5-24PbF2-20CdF2, doping 1mol%Yb3+ and 10mol%Er3+, the Yb3+-Er3+ codope oxyfluoride devitrified glass of preparation excites down at the 980nm semiconductor laser, can realize converting on the infrared ray visible light green glow.

In preparation, preparation technology is according to the difference of outer carrier material and difference.The carrier that the amorphous alloy fiber skin is coated can be organic high molecular compound or polymer, also can be silicate material.

When the outer carrier that coats of amorphous alloy fiber is organic high molecular compound or polymer, the material (as rare earth luminescent material) that will have an optical characteristics is milled and is sieved, join in the organic high molecular compound or polymer under the molten condition (as thermoplastic polymer) in required ratio, and add auxiliary agents such as plasticizer, viscosity modifier and antioxidant in right amount, fully mix, then this mixture is coated with or sticks to the amorphous alloy fiber skin and get final product.

When the outer carrier that coats of amorphous alloy fiber is silicate (as glass), with glass as carrier, optical characteristics material (as the rare earth material) powder of a certain proportion of special chemical composition of mixing, they are all sieved, evenly mix through fine grinding, burn till optical characteristics glass under certain condition, and be blow molded into glass tube, and cool off.

Then the non-crystaline amorphous metal rod is placed in the glass tube, make alloy melting in the glass tube lower end with induction coil, make glass tube softening simultaneously, pull out a capillary glass tube with a tensile machine from the glass tube bottom, metal bath embeds wherein, in drop-down capillary process, sprays cooling fluid continuously to capillary with nozzle, make alloy rapid solidification wherein, form the anti-false fiber that glass coats.

Certainly, those of ordinary skill in the art will be appreciated that, above embodiment is used for illustrating the present invention, and be not to be used as limitation of the invention, as long as in connotation scope of the present invention, all will drop in the scope of claims of the present invention variation, the modification of the above embodiment.

Claims (8)

1, a kind of composite anti-counterfeiting fiber,

It is characterized in that:

This fiber comprises inside and outside two layers, and internal layer is an amorphous alloy fiber, and skin is a luminous material layer, and skin dyes, adheres to, is coated on the amorphous alloy fiber of internal layer by being coated with.

2, composite anti-counterfeiting fiber according to claim 1,

It is characterized in that:

Described alloy silk is amorphous state and has electromagnetic property.

3, composite anti-counterfeiting fiber according to claim 1,

It is characterized in that:

Described amorphous alloy wire is based on Fe base, Co base or Fe-Co base noncrystal alloy fiber, or mixes with magnesium-yttrium-transition metal.

4, composite anti-counterfeiting fiber according to claim 1,

It is characterized in that:

Described alloy silk is amorphous state and possesses the electromagnetic property and the characteristics of luminescence simultaneously.

5, according to claim 1 or 2 or 3 or 4 described composite anti-counterfeiting fibers,

It is characterized in that:

Described outer field luminescent material is that luminescence generated by light, cathode-ray luminescence, electroluminescent, X ray are luminous, any material in the thermoluminescence material.

6, according to claim 1 or 2 or 3 or 4 described composite anti-counterfeiting fibers,

It is characterized in that:

Described outer field luminescent material is that luminescence generated by light, cathode-ray luminescence, electroluminescent, X ray are luminous, the formed material of combination mutually between the thermoluminescence material.

7, composite anti-counterfeiting fiber according to claim 5,

It is characterized in that:

Described luminescent material with silicate or organic high molecular compound or polymer as carrier.

8, according to right 6 described composite anti-counterfeiting fibers,

It is characterized in that:

The rare earth element that contains in the described luminescent material is meant that atomic number is that 57 to 71 lanthanide series rare-earth elements and atomic number are 39 yttrium.