RFID Tag with Coated Paper as The Base Material and Making method Thereof

Abstract

The invention provides an RFID tag with coated paper as the base material, comprising: an IC Chip, an antenna layer, a glue layer and a corrosion resistant paper arranged in order from top to bottom, said antenna layer binds said IC Chip, said antenna layer is linked with said corrosion resistant paper through said glue layer, said corrosion resistant paper is composed of coated paper coated with corrosion resistant coating on both sides. The beneficial effects of the invention are as follows: using coated paper instead of PET film as the base material of RFID tag, the new RFID tag with low price and high performance is made by using its flat surface, high temperature resistance, easy decomposition and environmental protection. It simplifies the process flow and eliminates the process of sticking the label on the label paper. As the direct base material of RFID tag, the chip can be directly used after the chip is bound to the antenna.

Claims

1. An RFID tag with coated paper as the base material, comprising: an IC Chip, an antenna layer, a glue layer and a corrosion resistant paper arranged in order from top to bottom, said antenna layer binds said IC Chip, said antenna layer is linked with said corrosion resistant paper through said glue layer, said corrosion resistant paper is composed of coated paper coated with corrosion resistant coating on both sides.

2. The RFID tag with coated paper as the base material according to claim 1, wherein said coated paper is double-sided coated paper.

3. The RFID tag with coated paper as the base material according to claim 1, wherein said antenna layer is aluminum foil or copper foil.

4. The RFID tag with coated paper as the base material according to claim 1, wherein said glue layer is composed of glue, curing agent and solvent by mixing and stirring, the ratio of glue, curing agent and solvent is 10:0.8:6, and the stirring time is 30 min.

5. The RFID tag with coated paper as the base material according to claim 4, wherein said glue is SanJing PP5430, said curing agent is I-3000, said solvent is ethyl acetate.

6. The RFID tag with coated paper as the base material according to claim 1, wherein said corrosion resistant coating is composed of polyester resin 30-40 parts, bisphenol A cyanic acid resin 5-10 parts, acrylic resin 5-10 parts, alkyd resin 1-3 parts, epoxy resin 1-2 parts, defoamer 0.5-2 parts, ethyl acetate 40-50 parts.

7. A making method of an RFD tag with coated paper as the base material, comprising the following steps of: Step 1): making waterproof, acid and alkali resistant corrosion resistant paper; Step 2): making RFID antenna; Step 3): making RFID tag.

8. The making method of an RFID tag with coated paper as the base material according to claim 7, wherein the making method of waterproof, acid and alkali resistant corrosion resistant paper in step 1) is to coat, the front and back sides of the double-sided coated paper with corrosion resistant coating by coating machine.

9. The making method of an RFID tag with coated paper as the base material according to claim 8, wherein said corrosion resistant coating is composed of polyester resin 30-40 parts, bisphenol A cyanic acid resin 5-10 parts, acrylic resin 5-10 parts, alkyd resin 1-3 parts, epoxy resin 1-2 parts, defoamer 0.5-2 parts, ethyl acetate 40-50 parts.

10. The making method of an RFID tag with coated paper as the base material according to claim 7, wherein the making method of RFID antenna in step 2) is: Step (1): the semi-finished product of paper antenna is made by compounding aluminum foil or copper foil with corrosion-resistant paper through the laminating machine; Step (2): the antenna pattern is printed on the semi-finished product of corrosion-resistant paper antenna by printing machine; Step (3): the pattern on the semi-finished product of the corrosion-resistant paper antenna is made into an etching antenna by an etching machine.

11. The making method of an RFID tag with coated paper as the base material according to claim 8, wherein the coating amount of said coating machine reaches 9-15 g/m.sup.2.

12. The making method of an RFID tag with coated paper as the base material according to claim 8, wherein the drying channel temperature of said coating machine is 90-150 C., the coating speed is 25-35 m/min, and the coating pressure is 0.5-0.7 MPA.

13. The making method of an RFID tag with coated paper as the base material according to claim 10, wherein the stripping force between said aluminum foil or copper foil and said corrosion resistant paper is 41 N/15 mm.

14. The making method of an RFID tag with coated paper as the base material according to claim 10, wherein the composite temperature is 70-90 C., the curing temperature is 505 C. and the curing time is not less than 96 h.

15. The making method of an RFID tag with coated paper as the base material according to claim 7, wherein the making method of RFID tag in step 3) is to use, the RFID antenna obtained in step 2) to bind the chip to form an RFID tag.

16. The making method of an RFID tag with coated paper as the base material according to claim 7, wherein during the binding, the hot pressing temperature is 185 C. the hot pressing pressure is 0.5-1 N, the hot pressing time is 7-8 s, and the test frequency is 860-960 MHZ.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0037] FIG. 1 is a structural diagram of the RFID electronic tag of the invention.

[0038] In the picture:

[0039] 1IC Chip:

[0040] 2antenna layer:

[0041] 3glue layer:

[0042] 4corrosion resistant paper;

[0043] 5coated paper;

[0044] 6corrosion resistant coating.

DETAILED EMBODIMENTS

[0045] The technical scheme of the invention is further explained by specific examples.

[0046] Composition of coated paper

[0047] An RFID tag with coated paper as the base material, comprising: an IC Chip, an antenna layer, a glue layer and a corrosion resistant paper arranged in order from top to bottom, said antenna layer binds said IC Chip, said antenna layer is linked with said corrosion resistant paper through said glue layer, said corrosion resistant paper is composed of coated paper coated with corrosion resistant coating on both sides.

[0048] The coated paper is double-sided coated paper.

[0049] The antenna layer is aluminum foil or copper foil.

[0050] The glue layer is composed of glue, curing agent and solvent by mixing and stirring, the ratio of glue, curing agent and solvent is 10:0.8:6, and the stirring time is 30 min. The glue is SanJing PP5430, the curing agent is I-3000, the solvent is ethyl acetate.

[0051] The corrosion resistant coating is composed of polyester resin 30-40 parts, bisphenol A cyanic acid resin 5-10 parts, acrylic resin 5-10 parts, alkyd resin 1-3 parts, epoxy resin 1-2 parts, defoamer 0.5-2 parts, ethyl acetate 40-50 parts.

[0052] The corrosion resistant coating has good water resistance, acid and alkali resistance and leveling property, the 3# Zahn viscosity cups testing is 505 S, to ensure the required coating amount. It can effectively protect the substrate from acid and alkali, high temperature, water vapor and other erosion. After coating, the surface can be printed with clear text and image.

[0053] Using coated paper instead of PET film as the base material of RFID tag, the new RFD tag with low price and high performance is made by using its flat surface, high temperature resistance, easy decomposition and environmental protection. It simplifies the process flow and eliminates the process of sticking the label on the label paper. As the direct base material of RFID tag, the chip can be directly used after the chip is bound to the antenna.

Making Method of Coated Paper

[0054] A making method of an RFID tag with coated paper as the base material, comprising the following steps of:

[0055] Step 1): making waterproof, acid and alkali resistant corrosion resistant paper. The making method of waterproof, acid and alkali resistant corrosion resistant paper is to coat the front and back sides of the double-sided coated paper with a corrosion resistant coating. Said corrosion resistant coating is composed of polyester resin 30-40 parts, bisphenol A cyanic acid resin 5-10 parts, acrylic resin 5-10 parts, alkyd resin 1-3 parts, epoxy resin 1-2 parts, defoamer 0.5-2 parts, ethyl acetate 40-50 parts.

[0056] The stripping force between said aluminum foil or copper foil and said corrosion resistant paper is 41 N/15 mm The composite temperature is 70-90 C., the curing temperature is 505 C., and the curing time is not less than 96 h.

[0057] step 2): making RFID antenna. The making method of RFID antenna is:

[0058] step (1): the semi-finished product of paper antenna is made by compounding aluminum foil or copper foil with corrosion-resistant paper through the laminating machine; step (2): the antenna pattern is printed on the semi-finished product of corrosion-resistant paper antenna by printing machine; step (3): the pattern on the semi-finished product of the corrosion-resistant paper antenna is made into an etching antenna by an etching machine. The glue layer is composed of glue, curing agent and solvent by mixing and stirring, the ratio of glue, curing agent and solvent is 10:0.8:6, the mixing time is 30 min. The glue is SanJing PP5430, the curing agent is 1-3000, the solvent is ethyl acetate.

[0059] Step 3): making RFID tag. The making method of RFID tag is to use the RFD antenna obtained in step 2) to bind the chip to form an RFID tag.

[0060] During the binding, the hot pressing temperature is 180 5 C., the hot pressing pressure is 0.5-1 N, the hot pressing time is 7-8 s, and the test frequency is 860-960 MHZ.

[0061] The coating amount of said coating machine reaches 9-15 g/m.sup.2, the drying channel temperature is 90-150 C., the coating speed is 25-35 m/min, and the coating pressure is 0.5-0.7 MPA.

[0062] 1) Using coated paper instead of PET film as the base material of RFID tag, the new RFID tag with low price and high performance is made by using its flat surface, high temperature resistance, easy decomposition and environmental protection.

[0063] 2) It simplifies the process flow and eliminates the process of sticking the label on the label paper. As the direct base material of RFID tag, the chip can be directly used after the chip is bound to the antenna.

Embodiment 1

[0064] The present embodiment is an RFID tag with coated paper as the base material, the structural diagram is shown as FIG. 1, comprising an IC Chip 1, an antenna layer 2, a glue layer 3 and a corrosion resistant paper 4 arranged in order from top to bottom, said antenna layer 2 binds said IC Chip 1, said antenna layer 2 is linked with said corrosion resistant paper 4 through said glue layer 3, said corrosion resistant paper 4 is composed of coated paper 5 coated with corrosion resistant coating 6 on both sides.

[0065] The coated paper 5 is double-sided coated paper.

[0066] The glue layer 3 is composed of glue, curing agent and solvent by mixing and stirring, the ratio of glue, curing agent and solvent is 10:0.8:6, the mixing time is 30 min. The glue is SanJing PP5430, the curing agent is 1-3000, the solvent is ethyl acetate.

[0067] The corrosion resistant coating is composed of polyester resin 30 parts, bisphenol A cyanci acid resin 5 parts, acrylic resin 5 parts, alkyd resin 1 parts, epoxy resin 1 parts, defoamer 0.5 parts, ethyl acetate 40 parts.

[0068] The making method of an RFID tag with coated paper as the base material, comprising the following steps of:

[0069] Step 1): making waterproof, acid and alkali resistant corrosion resistant paper. The making method of waterproof, acid and alkali resistant corrosion resistant paper is to coat the front and back sides of the double-sided coated paper with a corrosion resistant coating. Said corrosion resistant coating is composed of polyester resin 30 parts, bisphenol A cyanic acid resin 5 parts, acrylic resin 5 parts, alkyd resin 1 parts, epoxy resin 1 parts, defoamer 0.5 parts, ethyl acetate 40 parts.

[0070] The stripping force between said aluminum foil or copper foil and said corrosion resistant paper is 3 N/15 mm. The composite temperature is 70 C., the curing temperature is 45 C., and the curing time is 96 h.

[0071] step 2): making RFID antenna. The making method of RFID antenna is:

[0072] step (1): the semi-finished product of paper antenna is made by compounding aluminum foil or copper foil with corrosion-resistant paper through the laminating machine; step (2): the antenna pattern is printed on the semi-finished product of corrosion-resistant paper antenna by printing machine; step (3): the pattern on the semi-finished product of the corrosion-resistant paper antenna is made into an etching antenna by an etching machine. The glue layer is composed of glue, curing agent and solvent by mixing and stirring, the ratio of glue, curing agent and solvent is 10:0.8:6, the mixing time is 30 min. The glue is SanJing PP5430. The curing agent is 1-3000. The solvent is ethyl acetate.

[0073] Step 3): making RFID tag. The making method of RFID tag is to use the RFID antenna obtained in step 2) to bind the chip to form an RFID tag.

[0074] During the binding, the hot pressing temperature is 175 C., the hot pressing pressure is 0.5 N, the hot pressing time is 7 s, and the test frequency is 860 MHZ.

[0075] The coating amount of said coating machine reaches 9 g/m.sup.2, the drying channel temperature is 90 C., the coating speed is 25 m/min, and the coating pressure is 0.5 MPA.

Embodiment 2

[0076] Different from embodiment 1 is, the corrosion resistant coating is composed of polyester resin 40 parts, bisphenol A cyanic acid resin 10 parts, acrylic resin 10 parts, alkyd resin 3 parts, epoxy resin 2 parts, defoamer 2 parts, ethyl acetate 50 parts.

[0077] The stripping force between said aluminum foil or copper foil and said corrosion resistant paper is 5 N/15 mm. The composite temperature is 90 C., the curing temperature is 55 C., and the curing time is 98 h.

[0078] The hot pressing temperature is 185 C., the hot pressing pressure is 1 N, the hot pressing time is 8 s, and the test frequency is 960 MHZ.

[0079] The coating amount of said coating machine reaches 15 g/m.sup.2, the drying channel temperature is 150 C., the coating speed is 35 m/min, and the coating pressure is 0.7 MPA.

Embodiment 3

[0080] Different from embodiment 1 is, the corrosion resistant coating is composed of polyester resin 35 parts, bisphenol A cyanic acid resin 8 parts, acrylic resin 8 parts, alkyd resin 2 parts, epoxy resin 1.5 parts, defoamer 1 parts, ethyl acetate 45 parts.

[0081] The stripping force between said aluminum foil or copper foil and said corrosion resistant paper is 5 N/15 mm. The composite temperature is 80 C., the curing temperature is 52 C., and the curing time is not less than 1 h.

[0082] The hot pressing temperature is 182 C. the hot pressing pressure is 0.8 N, the hot pressing time is 7.5 s, and the test frequency is 900 MHZ.

[0083] The coating amount of said coating machine reaches 13 g/m.sup.2, the drying channel temperature is 100 C., the coating speed is 30 m/min, and the coating pressure is 0.6 MPA.

Embodiment 4

[0084] Different from embodiment 1 is, the corrosion resistant coating is composed of polyester resin 25 parts, bisphenol A cyanic acid resin 4 parts, acrylic resin 4 parts, alkyd resin 0.5 parts, epoxy resin 0.5 parts, defoamer 0.2 parts, ethyl acetate 35 parts.

Embodiment 5

[0085] Different from embodiment 1 is, the corrosion resistant coating is composed of polyester resin 45 parts, bisphenol A cyanic acid resin 12 parts, acrylic resin 12 parts, alkyd resin 3.5 parts, epoxy resin 2.5 parts, defoamer 2.5 parts, ethyl acetate 55 parts.

Experimental Verification

[0086] 1. Whether the RFID tag is deformed at different temperatures:

[0087] The temperature values are 50 C., 80 C., 100 C., 120 C., 150 C., 180 C., 200 C., 220 C., and the experimental results are shown in Table 1;

[0088] 2. The results of stripping force test are shown in Table 2.

TABLE-US-00001 TABLE 1 Test results of RFID tag deformation at different temperatures Test result Test number 50 C. 80 C. 100 C. 120 C. 150 C. 180 C. 200 C. 220 C. Embodiment 1 No No No No No No Yes Yes Embodiment 2 No No No No No No Yes Yes Embodiment 3 No No No No No No Yes Yes Embodiment 4 No No No No No No Yes Yes Embodiment 5 No No No No No No Yes Yes

TABLE-US-00002 TABLE 2 Test results of stripping force test Test result Test number stripping force Embodiment 1 4N/15 mm Embodiment 2 5N/15 mm Embodiment 3 5N/15 mm Embodiment 4 2N/15 mm Embodiment 5 10N/15 mm

[0089] The RFID tags of embodiments 1-5 can adapt to high temperature working environment.

[0090] The RFID tags of embodiments 1-3 have good stripping force; the stripping force of embodiment 4 is too small, which is easy to fall off; the stripping force of embodiment 5 is large, which is not easy to peel off in actual work.

[0091] The above five embodiments of the invention have been described in detail, but the contents are only better embodiments of the invention and cannot be considered as limiting the implementation scope of the invention. All equal changes and improvements made according to the application scope of the invention shall still belong to the scope of the patent of the invention.

RFID Tag with Coated Paper as The Base Material and Making method Thereof

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Cpc classification

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G06K19/07745

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B32B2307/7265

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B32B2307/75

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G06K19/07749

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G06K19/07722

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B32B2519/02

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B32B2307/30

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B32B2307/714

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B32B29/00

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G06K19/077

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Abstract

Claims

Description