CN102616024A - Heat-transfer wax-based carbon ribbon - Google Patents

Abstract

The invention belongs to the technical field of thermal transfer printing materials, and particularly relates to a thermal transfer wax-based carbon ribbon. The transfer printing wax-based carbon belt comprises a back coating, a base material, a release coating on the base material and an ink coating on the release coating, wherein the ink coating comprises the following components in percentage by weight: 1 to 10.3 percent of resin, 29 to 34 percent of wax, 9 to 10 percent of pigment, 0.7 to 0.8 percent of dispersant and 51 to 55 percent of solvent. The thermal transfer wax-based carbon ribbon provided by the invention has the advantages of high transfer rate, good adhesive force, scratch resistance and no adhesion, and can be suitable for thermal transfer bar code printers with various speeds, wider printing temperature and different printing carriers.

Description

A kind of hot transfer printing cerul carbon ribbon

Technical field

The invention belongs to hot transfer printing printed material technical field, particularly a kind of hot transfer printing cerul carbon ribbon.

Background technology

The supporting use of heat transfer printing carbon tape and bar code printer is widely used in the sign and the explanatory note of lot number in logistics, electronics, food and the commodity industry.Its structure mainly is made up of four parts, back coating, base material, release layer, ink coating.Require its ink coating after being heated under the suitable temperature, to be transferred to fully on the carrier of undertaking the printing of during use, ink coating has adaptability widely to the carrier of undertaking the printing of, and requires that adhesive force is good, scratch-resistant, adhesion.On the domestic market to being in great demand of cerul carbon ribbon, but present cerul product all can not well satisfy above-mentioned requirement.

Summary of the invention

The object of the present invention is to provide a kind of hot transfer printing cerul carbon ribbon, can well satisfy the requirement of market to hot transfer printing cerul carbon ribbon, after being heated, can be transferred to fully on the carrier of undertaking the printing of, the China ink layer has adaptability widely to the carrier of undertaking the printing of, and adhesive force is good, scratch-resistant.

The technical scheme that the present invention adopts is following:

A kind of hot transfer printing cerul carbon ribbon; Constitute by back coating, base material and the release coating above the base material, ink coating above the release coating; Described ink coating is made up of following component by weight percentage: resin 1-10.3%; Wax class 29-34%, pigment 9-10%, dispersant 0.7-0.8% and solvent 51-55%.

Described weight resin percentage composition is: vinylite 0-3%, Petropols 1-6%, acrylic resin or mylar 0-1.3%.

Described wax class weight percent is formed as follows: palm wax 16-17%, full refining wax 13-17%.

Preferably; Described ink coating is formed as follows: vinylite 2.5%, Petropols 3.9%, acrylic resin 1%, palm wax 16.5%, full refining wax 13.2%, pigment 9.6%, dispersant 0.7%, solvent 52.6%, described ink coating thickness are the preferred 2.5 μ m of 2.2-2.8 μ m.

The weight percent of described release coating consists of: mylar 2-3%, solvent 97-98%, release coating layer thickness are 0.05-0.06 μ m.

Described back coating and release coating lay respectively at the two sides of base material, and the weight percent of said back coating consists of: organosilicon 3-3.5%, solvent 96.5-97%.The thickness of said back coating can be ignored.

Said base material is a polyester material, and thickness is 4.2-4.5 μ m.

Dispersant major function in the ink lay component is to solve the dispersing of pigments problem, granules of pigments can be scattered in the system equably get final product.

Described hot transfer printing cerul carbon ribbon gets final product according to the conventional method preparation, has no special requirements.

Hot transfer printing cerul carbon ribbon provided by the invention; Ink coating can be transferred on the carrier of undertaking the printing of (transferring rate>95%) after suitable energy level is heated; Ink coating has adaptability widely to the carrier of undertaking the printing of, and can on the carriers of undertaking the printing of such as non-coated paper, coated paper, heat-transferring printing paper, realize the high-quality transfer printing; Adhesive force is good, scratch-resistant, adhesion, can be fit to various speed (2ips, 4ips, 6ips), more extensively print the heat transfer type bar code printer of energy level (the printing gear of bar code printer, generally from 0 to 30, energy level scope of the present invention can be 14-28).Ink coating and release coating have good adhesion simultaneously; Its release coating has good intermediary performance, with the adhesive force of base material less than with the adhesive force of ink coating, transfer printing property is fine, the transfer printing character edge is neat, has good flexibility.

The present invention has following advantage with respect to prior art:

Hot transfer printing cerul carbon ribbon provided by the invention, transferring rate is high, and adhesive force is good, scratch-resistant, adhesion, can be fit to various speed, more extensively print the heat transfer type bar code printer of energy level and the different carriers of undertaking the printing of.

The specific embodiment

Below with specific embodiment technical scheme of the present invention is described, but protection scope of the present invention is not limited thereto:

Embodiment 1

Base material is polyester (a PET basement membrane), and thickness is 4.5 μ m;

The every 100g of ink coating forms as follows:

Dispersant	0.8
		Palm wax	16.5
Vinylite	2.5
		Pigment	9.6
Full refining wax	16.8
		Petropols	1.2
Solvent	52.6

The every 100g of release coating forms as follows:

Mylar	2g
		Solvent	98g

The every 100g of back coating forms as follows:

Organosilicon	3g
		Solvent	97g

Vinylite is selected the VA-600 of Hunan petrochemistry company for use; Petropols are selected the A-1100 of permanent stone company for use; Palm wax is selected the Carnauba-3 of Foncepi company for use, and full refining wax is selected the AP-1000 of permanent stone company for use, and pigment is selected the BeBlack6316F1 of brave cutting edge of a knife or a sword company for use; Dispersant is selected the scientific and technological A4300 and 1005 of refined rich color for use, and (the A4300:1005 mass ratio=5:2), solvent uses toluene.Mylar is selected the ES-110 of SK chemical industry for use.Organosilicon is selected the KR-605 of Ke Lin company for use.

Press the back coating compositing formula, process mixed solution, at the substrate backside coating film forming, under 105 ℃ of conditions, dry and get final product through coating apparatus.Process the hybrid resin solvent by release coating formula again, be coated with into the film that thickness is 0.05-0.06 μ m, under 105 ℃ of conditions, dry and get final product through coating apparatus.According to the ink lay prescription; In solvent, the order by above-mentioned prescription adds other components again, through grinder system is uniformly dispersed the dispersant heating for dissolving in elder generation; Be coated on the release coating through coating machine; Under 105 ℃ temperature, dry, its thickness is 2.5 μ m, forms hot transfer printing cerul carbon ribbon.

Embodiment 2

Base material is a polyester, and thickness is 4.5 μ m;

Ink coating:

Dispersant	0.8
		Palm wax	16.5
Vinylite	2.5
		Pigment	9.6
Full refining wax	14.4
		Petropols	2.9
Mylar	0.7
		Solvent	52.6

Wherein mylar is selected the ES-812 of SK chemical industry for use; All the other material therefors are identical with embodiment 1.By as above filling a prescription, elder generation in solvent, adds other components to the dispersant heating for dissolving in the order by above-mentioned prescription; Through grinder system is uniformly dispersed, is coated on the release coating, under 105 ℃ temperature, dry through coating machine; Its thickness is 2.5 μ m, forms hot transfer printing cerul carbon ribbon.

The composition of release coating, back coating and preparation method are with embodiment 1.

Embodiment 3

Base material is a polyester, and thickness is 4.5 μ m;

Ink coating:

Dispersant	0.7g
		Pigment	9.6g
Palm wax	16.5g
		Full refining wax	13.2g
Vinylite	2.5g
		Petropols	3.9g
Mylar	1.0g
		Solvent	52.6g

Other are with embodiment 1.

Embodiment 4

Base material is a polyester, and thickness is 4.5 μ m;

Ink coating:

Dispersant	0.8g
		Pigment	9.6g
Palm wax	16.5g
		Full refining wax	14.4g
Vinylite	0g
		Petropols	4.9g
Mylar	1.2g
		Solvent	52.6g

Other are with embodiment 1.

Embodiment 5

Base material is a polyester, and thickness is 4.5 μ m;

Ink coating:

Dispersant	0.7g
		Pigment	9.6g
Palm wax	16.5g
		Full refining wax	13.2g
Vinylite	1.3g
		Petropols	4.9g
Mylar	1.2g
		Solvent	52.6g

Other are with embodiment 1.

Embodiment 6

Base material is a polyester, and thickness is 4.5 μ m;

Ink coating:

Dispersant	0.8g
		Pigment	9.6g
Palm wax	16.5g
		Full refining wax	13.2g
Vinylite	1.3g
		Petropols	6.0g
Solvent	52.6g

Other are with embodiment 1.

Embodiment 7

Base material is a polyester, and thickness is 4.5 μ m;

Ink coating:

Dispersant	0.7g
		Pigment	9.6g
Palm wax	16.5g
		Full refining wax	14.4g
Vinylite	1.3g
		Petropols	3.9g
Mylar	1.0g
		Solvent	52.6g

Other are with embodiment 1.

Embodiment 8

Base material is a polyester, and thickness is 4.5 μ m

Ink coating:

Dispersant	0.7g
		Pigment	9.6g
Palm wax	16.5g
		Full refining wax	13.2g
Vinylite	1.3g
		Petropols	5.5g
Mylar	0.6g
		Solvent	52.6g

Other are with embodiment 1.

Embodiment 9

Base material is a polyester, and thickness is 4.5 μ m;

Ink coating:

Dispersant	0.8g
		Pigment	9.6g
Palm wax	16.5g
		Full refining wax	13.2g
Vinylite	2.5g
		Petropols	4.3g
Mylar	0.5g
		Solvent	52.6g

Other are with embodiment 1.

Embodiment 10

Base material is a polyester, and thickness is 4.5 μ m;

Ink coating:

Dispersant	0.7g
		Palm wax	16.5g
Vinylite	1.3g
		Pigment	9.6g
Full refining wax	13.2g
		Petropols	4.9g
Acrylic resin	1.2g
		Solvent	52.6g

Wherein acrylic resin is selected the 13LP of permanent stone for use; Other are with embodiment 1.

Embodiment 11

Base material is a polyester, and thickness is 4.5 μ m;

Ink coating:

Dispersant	0.7g
		Palm wax	16.5g
Vinylite	1.3g
		Pigment	9.6g
Full refining wax	13.2g
		Petropols	5.5g
Acrylic resin	0.6g
		Solvent	52.6g

Wherein acrylic resin is selected the 13LP of permanent stone for use, and other are with embodiment 1.

Embodiment 12

Base material is a polyester, and thickness is 4.5 μ m

Ink coating:

Dispersant	0.7g
		Palm wax	16.5g
Vinylite	1.3g
		Pigment	9.6g
Full refining wax	14.4g
		Petropols	3.9g
Acrylic resin	1.0g
		Solvent	52.6g

Wherein acrylic resin is selected the CPP of permanent stone for use, and other are with embodiment 1.

Embodiment 13

Base material is a polyester, and thickness is 4.5 μ m;

Ink coating:

Dispersant	0.7g
		Palm wax	16.5g
Vinylite	2.5g
		Pigment	9.6g
Full refining wax	13.2g
		Petropols	3.9g
Acrylic resin	1.0g
		Solvent	52.6g

Wherein acrylic resin is selected the CPP of permanent stone for use, and other are with embodiment 1.

Effect

The hot transfer printing cerul carbon ribbon that the foregoing description 1-13 is made observes its transfer printing effect, with the adhesive force of the paper of undertaking the printing of and to the adaptability of the carrier of undertaking the printing of.

The transfer printing effect is that the transferring rate of ink lay is realized, is divided into three phases by following benchmark through after printing,>95% → A, 95-90% → B, < 90% → C.

Adhesive force is the bistrique with loading 800 gram, to the paper friction 50 times of undertaking the printing of, observes the damaged area of transfer ink layer, with no breakage → A, breakage fewer than half → B, complete breakage → C estimate damaged area.

The adaptability of carrier of undertaking the printing of is done printing test with the dissimilar paper of undertaking the printing of, and its applicability is estimated with the rank of transferring rate,>95% → A, 95-90% → B, < 90% → C.

The foregoing description is the preferred embodiment of the present invention, but embodiment of the present invention is not restricted to the described embodiments, and other the change that any the present invention of not deviating from did all should be the substitute mode of equivalence, is included within protection scope of the present invention.

Claims (7)

1. hot transfer printing cerul carbon ribbon; Constitute by back coating, base material and the release coating above the base material, ink coating above the release coating; It is characterized in that described ink coating is made up of following component by weight percentage: resin 1-10.3%, wax class 29-34%; Pigment 9-10%, dispersant 0.7-0.8% and solvent 51-55%.

2. hot transfer printing cerul carbon ribbon as claimed in claim 1 is characterized in that described weight resin percentage composition is: vinylite 0-3%, Petropols 1-6%, acrylic resin or mylar 0-1.3%.

3. hot transfer printing cerul carbon ribbon as claimed in claim 1 is characterized in that, described wax class weight percent is formed as follows: palm wax 16-17%, full refining wax 13-17%.

4. like the described hot transfer printing cerul carbon ribbon of one of claim 1-3; It is characterized in that; Described ink coating is formed as follows: vinylite 2.5%, Petropols 3.9%, acrylic resin 1%, palm wax 16.5%, full refining wax 13.2%, pigment 9.6%, dispersant 0.7%, solvent 52.6%, described ink coating thickness are 2.2-2.8 μ m.

5. like the described hot transfer printing cerul carbon ribbon of one of claim 1-3, it is characterized in that the weight percent of described release coating consists of: mylar 2-3%, solvent 97-98%, release coating layer thickness are 0.05-0.06 μ m.

6. hot transfer printing cerul carbon ribbon as claimed in claim 5 is characterized in that the weight percent of described back coating consists of: organosilicon 3-3.5%, solvent 96.5-97%.

7. hot transfer printing cerul carbon ribbon as claimed in claim 6 is characterized in that said base material is a polyester material, and thickness is 4.2-4.5 μ m.