CN106515235A - Thermal sublimation transfer printing ink ribbon - Google Patents

Abstract

The invention discloses a thermal sublimation transfer printing ink ribbon. The thermal sublimation transfer printing ink ribbon comprises a base band. The front face and the back face of the base band are each coated with a layer of coating. The coating comprises, by weight, 20-40 parts of inorganic nanoscale pigment, 10-20 parts of organic silicon resin, 10-20 parts of polyvinyl chloride, 15-25 parts of petroleum resin, 8-15 parts of nanoscale silica powder, 8-17 parts of polystyrene, 4-12 parts of methylcellulose, 4-15 parts of sodium alginate, 4-17 parts of nanoscale titanium dioxide, 5-15 parts of synthetic wax, 1-4 parts of heat-conducting silicone grease and 6-17 parts of methyltriacetoxysilane. According to the thermal sublimation transfer printing ink ribbon, the preparation process is simple, the prepared printing ink ribbon can improve the transfer printing sensitivity, adhesive force with a printed material is increased, and transfer printing quality is improved. Meanwhile, high temperature resistance is achieved.

Description

A kind of thermal dye sublimation transfer printing ink carbon ribbon

Technical field

The present invention relates to ink carbon ribbon preparing technical field, specially a kind of thermal dye sublimation transfer printing ink carbon ribbon.

Background technology

Thermal dye sublimation transfer printing carbon ribbon is to print necessary consumable material, and the core material for determining thermal transfer imaging quality. Heat transfer printing carbon tape on the market mainly has cerul heat transfer printing carbon tape, resin heat transfer printing carbon tape and cerul mixed with resin type heat to turn at present Printing carbon tape, cerul heat transfer printing carbon tape print that energy consumption is low, and printing effect is good, but durability is relatively low, corrosion resistance and rippability compared with Other carbon ribbons are weak；Resin heat transfer printing carbon tape prints clear, and image durability, wearability, heat resistance etc. are preferable, but energy consumption Greatly, high cost；Cerul mixed with resin type heat transfer printing carbon tape cost performance is higher, and durability is good, but clear in hardness, heat resistance, printing There is shortcoming in terms of clear degree.

The content of the invention

It is an object of the invention to provide a kind of thermal dye sublimation transfer printing ink carbon ribbon, to solve what is proposed in above-mentioned background technology Problem.

For achieving the above object, the present invention provides following technical scheme：A kind of thermal dye sublimation transfer printing ink carbon ribbon, including base Band, the base band obverse and reverse are coated with one layer of coating, and coating component includes inorganic nano level pigment 20- by weight 40 parts, it is organic siliconresin 10-20 parts, polyvinyl chloride 10-20 parts, Petropols 15-25 parts, nano silicone micro mist 8-15 parts, poly- Styrene 8-17 parts, methylcellulose 4-12 parts, sodium alginate 4-15 parts, Nano titanium dioxide 4-17 parts, synthetic wax 5-15 Part, heat-conducting silicone grease 1-4 parts and methyl triacetoxysilane 6-17 parts.

Preferably, the base thickness is 2 microns -6 microns.

Preferably, the preferred composition proportion of the coating is 30 parts of inorganic nano level pigment, 15 parts of organic siliconresin, polychlorostyrene 15 parts of ethene, 20 parts of Petropols, 12 parts of nano silicone micro mist, 13 parts of polystyrene, 8 parts of methylcellulose, sodium alginate 10 Part, 11 parts of Nano titanium dioxide, 10 parts of synthetic wax, 3 parts of heat-conducting silicone grease and 12 parts of methyl triacetoxysilane.

Preferably, its preparation method is comprised the following steps：

A, by inorganic nano level pigment, organic siliconresin, polyvinyl chloride, Petropols, nano silicone micro mist, polystyrene mixing Heating response in reactor is added afterwards, and heating-up temperature is 85 DEG C, and constant temperature 10min, is cooled to normal temperature afterwards, obtains mixture afterwards A；

B, methylcellulose, sodium alginate, Nano titanium dioxide, synthetic wax, heat-conducting silicone grease and first are added in mixture A Base triacetoxysilane, is at the uniform velocity stirred in adding stirred tank after mixing, and stir speed (S.S.) is 2000 revs/min, mixing time For 15min, 30min is stood, that is, obtains coating；

C, the coating spraying that step B is obtained and base band obverse and reverse, are dried in being put into 50 DEG C of thermostatic drying chambers afterwards, are dried Time is 15min, obtains ink carbon ribbon after being dried.

Compared with prior art, the invention has the beneficial effects as follows：Preparation process is simple of the present invention, ink carbon ribbon is obtained can Transfer sensitivity is improved, the adhesive force with stock is improve, is improve transfer quality；Synthetic wax is added with the present invention and is led Hot silicone grease, makes prepared carbon ribbon have high heat resistance, also with excellent thermal conductivity, does not interfere with thermal transfer ink layer Printing effect, so as to more have practicality；In addition, the preparation method that the present invention is adopted improves the uniformity of coating, enter one Step improves print quality.

Specific embodiment

Below the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment Only it is a part of embodiment of the invention, rather than the embodiment of whole.Based on the embodiment in the present invention, ordinary skill The every other embodiment obtained under the premise of creative work is not made by personnel, belongs to the scope of protection of the invention.

The present invention provides a kind of technical scheme：A kind of thermal dye sublimation transfer printing ink carbon ribbon, including base band, base band front surface coated There is one layer of coating, coating component includes inorganic nano level pigment 20-40 parts, organic siliconresin 10-20 parts, polychlorostyrene by weight Ethene 10-20 parts, Petropols 15-25 parts, nano silicone micro mist 8-15 parts, polystyrene 8-17 parts, methylcellulose 4-12 Part, sodium alginate 4-15 parts, Nano titanium dioxide 4-17 parts, synthetic wax 5-15 parts, three second of heat-conducting silicone grease 1-4 parts and methyl Acyloxy silane 6-17 parts.

Embodiment one：

In the present embodiment, base thickness is 2 microns.

In the present embodiment, coating component includes 20 parts of inorganic nano level pigment, 10 parts of organic siliconresin by weight, gathers 10 parts of vinyl chloride, 15 parts of Petropols, 8 parts of nano silicone micro mist, 8 parts of polystyrene, 4 parts of methylcellulose, sodium alginate 4 Part, 4 parts of Nano titanium dioxide, 5 parts of synthetic wax, 1 part of heat-conducting silicone grease and 6 parts of methyl triacetoxysilane.

The preparation method of the present embodiment is comprised the following steps：

A, by inorganic nano level pigment, organic siliconresin, polyvinyl chloride, Petropols, nano silicone micro mist, polystyrene mixing Heating response in reactor is added afterwards, and heating-up temperature is 85 DEG C, and constant temperature 10min, is cooled to normal temperature afterwards, obtains mixture afterwards A；

B, methylcellulose, sodium alginate, Nano titanium dioxide, synthetic wax, heat-conducting silicone grease and first are added in mixture A Base triacetoxysilane, is at the uniform velocity stirred in adding stirred tank after mixing, and stir speed (S.S.) is 2000 revs/min, mixing time For 15min, 30min is stood, that is, obtains coating；

C, the coating spraying that step B is obtained and base band obverse and reverse, are dried in being put into 50 DEG C of thermostatic drying chambers afterwards, are dried Time is 15min, obtains ink carbon ribbon after being dried.

Embodiment two：

In the present embodiment, base thickness is 6 microns.

In the present embodiment, coating component includes 40 parts of inorganic nano level pigment, 20 parts of organic siliconresin by weight, gathers 20 parts of vinyl chloride, 25 parts of Petropols, 15 parts of nano silicone micro mist, 17 parts of polystyrene, 12 parts of methylcellulose, sodium alginate 17 parts of 15 parts, 17 parts of Nano titanium dioxide, 15 parts of synthetic wax, 4 parts of heat-conducting silicone grease and methyl triacetoxysilane.

The preparation method of the present embodiment is comprised the following steps：

A, by inorganic nano level pigment, organic siliconresin, polyvinyl chloride, Petropols, nano silicone micro mist, polystyrene mixing Heating response in reactor is added afterwards, and heating-up temperature is 85 DEG C, and constant temperature 10min, is cooled to normal temperature afterwards, obtains mixture afterwards A；

B, methylcellulose, sodium alginate, Nano titanium dioxide, synthetic wax, heat-conducting silicone grease and first are added in mixture A Base triacetoxysilane, is at the uniform velocity stirred in adding stirred tank after mixing, and stir speed (S.S.) is 2000 revs/min, mixing time For 15min, 30min is stood, that is, obtains coating；

C, the coating spraying that step B is obtained and base band obverse and reverse, are dried in being put into 50 DEG C of thermostatic drying chambers afterwards, are dried Time is 15min, obtains ink carbon ribbon after being dried.

Embodiment three：

In the present embodiment, base thickness is 3 microns.

In the present embodiment, coating component includes 25 parts of inorganic nano level pigment, 12 parts of organic siliconresin by weight, gathers 12 parts of vinyl chloride, 17 parts of Petropols, 9 parts of nano silicone micro mist, 9 parts of polystyrene, 5 parts of methylcellulose, sodium alginate 5 Part, 5 parts of Nano titanium dioxide, 6 parts of synthetic wax, 2 parts of heat-conducting silicone grease and 7 parts of methyl triacetoxysilane.

The preparation method of the present embodiment is comprised the following steps：

A, by inorganic nano level pigment, organic siliconresin, polyvinyl chloride, Petropols, nano silicone micro mist, polystyrene mixing Heating response in reactor is added afterwards, and heating-up temperature is 85 DEG C, and constant temperature 10min, is cooled to normal temperature afterwards, obtains mixture afterwards A；

B, methylcellulose, sodium alginate, Nano titanium dioxide, synthetic wax, heat-conducting silicone grease and first are added in mixture A Base triacetoxysilane, is at the uniform velocity stirred in adding stirred tank after mixing, and stir speed (S.S.) is 2000 revs/min, mixing time For 15min, 30min is stood, that is, obtains coating；

C, the coating spraying that step B is obtained and base band obverse and reverse, are dried in being put into 50 DEG C of thermostatic drying chambers afterwards, are dried Time is 15min, obtains ink carbon ribbon after being dried.

Example IV：

In the present embodiment, base thickness is 5 microns.

In the present embodiment, coating component includes 35 parts of inorganic nano level pigment, 18 parts of organic siliconresin by weight, gathers 16 parts of vinyl chloride, 22 parts of Petropols, 13 parts of nano silicone micro mist, 15 parts of polystyrene, 10 parts of methylcellulose, sodium alginate 15 parts of 11 parts, 15 parts of Nano titanium dioxide, 13 parts of synthetic wax, 3 parts of heat-conducting silicone grease and methyl triacetoxysilane.

The preparation method of the present embodiment is comprised the following steps：

A, by inorganic nano level pigment, organic siliconresin, polyvinyl chloride, Petropols, nano silicone micro mist, polystyrene mixing Heating response in reactor is added afterwards, and heating-up temperature is 85 DEG C, and constant temperature 10min, is cooled to normal temperature afterwards, obtains mixture afterwards A；

B, methylcellulose, sodium alginate, Nano titanium dioxide, synthetic wax, heat-conducting silicone grease and first are added in mixture A Base triacetoxysilane, is at the uniform velocity stirred in adding stirred tank after mixing, and stir speed (S.S.) is 2000 revs/min, mixing time For 15min, 30min is stood, that is, obtains coating；

C, the coating spraying that step B is obtained and base band obverse and reverse, are dried in being put into 50 DEG C of thermostatic drying chambers afterwards, are dried Time is 15min, obtains ink carbon ribbon after being dried.

Embodiment five：

In the present embodiment, base thickness is 4 microns.

In the present embodiment, coating component includes 30 parts of inorganic nano level pigment, 15 parts of organic siliconresin by weight, gathers 15 parts of vinyl chloride, 20 parts of Petropols, 12 parts of nano silicone micro mist, 13 parts of polystyrene, 8 parts of methylcellulose, sodium alginate 12 parts of 10 parts, 11 parts of Nano titanium dioxide, 10 parts of synthetic wax, 3 parts of heat-conducting silicone grease and methyl triacetoxysilane.

The preparation method of the present embodiment is comprised the following steps：

A, by inorganic nano level pigment, organic siliconresin, polyvinyl chloride, Petropols, nano silicone micro mist, polystyrene mixing Heating response in reactor is added afterwards, and heating-up temperature is 85 DEG C, and constant temperature 10min, is cooled to normal temperature afterwards, obtains mixture afterwards A；

B, methylcellulose, sodium alginate, Nano titanium dioxide, synthetic wax, heat-conducting silicone grease and first are added in mixture A Base triacetoxysilane, is at the uniform velocity stirred in adding stirred tank after mixing, and stir speed (S.S.) is 2000 revs/min, mixing time For 15min, 30min is stood, that is, obtains coating；

C, the coating spraying that step B is obtained and base band obverse and reverse, are dried in being put into 50 DEG C of thermostatic drying chambers afterwards, are dried Time is 15min, obtains ink carbon ribbon after being dried.

Preparation process is simple of the present invention, is obtained ink carbon ribbon and can improve transfer sensitivity, improve attached with stock Put forth effort, improve transfer quality；Synthetic wax and heat-conducting silicone grease are added with the present invention, make prepared carbon ribbon that there is high temperature tolerance Can, also with excellent thermal conductivity, the printing effect of thermal transfer ink layer is not interfered with, so as to more have practicality；In addition, The preparation method that the present invention is adopted improves the uniformity of coating, further increases print quality.

Although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with Understanding can carry out various changes, modification, replacement to these embodiments without departing from the principles and spirit of the present invention And modification, the scope of the present invention be defined by the appended.

Claims (4)

1. a kind of thermal dye sublimation transfer printing ink carbon ribbon, including base band, it is characterised in that：The base band obverse and reverse is coated with One layer of coating, coating component include inorganic nano level pigment 20-40 parts, organic siliconresin 10-20 parts, polychlorostyrene second by weight Alkene 10-20 parts, Petropols 15-25 parts, nano silicone micro mist 8-15 parts, polystyrene 8-17 parts, methylcellulose 4-12 parts, Sodium alginate 4-15 parts, Nano titanium dioxide 4-17 parts, synthetic wax 5-15 parts, heat-conducting silicone grease 1-4 parts and methyl triacetyl TMOS 6-17 parts.

2. a kind of thermal dye sublimation transfer printing ink carbon ribbon according to claim 1, it is characterised in that：The base thickness is 2 micro- - 6 microns of rice.

3. a kind of thermal dye sublimation transfer printing ink carbon ribbon according to claim 1, it is characterised in that：The preferred composition of the coating Proportioning is that 30 parts of inorganic nano level pigment, 15 parts of organic siliconresin, 15 parts of polyvinyl chloride, 20 parts of Petropols, nano silicone are micro- 12 parts of powder, 13 parts of polystyrene, 8 parts of methylcellulose, 10 parts of sodium alginate, 11 parts of Nano titanium dioxide, 10 parts of synthetic wax, 12 parts of 3 parts of heat-conducting silicone grease and methyl triacetoxysilane.

4. a kind of preparation method of the thermal dye sublimation transfer printing ink carbon ribbon described in claim 1 is realized, it is characterised in that：Its preparation side Method is comprised the following steps：

A, by inorganic nano level pigment, organic siliconresin, polyvinyl chloride, Petropols, nano silicone micro mist, polystyrene mixing Heating response in reactor is added afterwards, and heating-up temperature is 85 DEG C, and constant temperature 10min, is cooled to normal temperature afterwards, obtains mixture afterwards A；

B, methylcellulose, sodium alginate, Nano titanium dioxide, synthetic wax, heat-conducting silicone grease and first are added in mixture A Base triacetoxysilane, is at the uniform velocity stirred in adding stirred tank after mixing, and stir speed (S.S.) is 2000 revs/min, mixing time For 15min, 30min is stood, that is, obtains coating；

C, the coating spraying that step B is obtained and base band obverse and reverse, are dried in being put into 50 DEG C of thermostatic drying chambers afterwards, are dried Time is 15min, obtains ink carbon ribbon after being dried.