CN108192425A

CN108192425A - A kind of heat-transferring printing paper high-temperaure coating liquid

Info

Publication number: CN108192425A
Application number: CN201711377824.0A
Authority: CN
Inventors: 余生
Original assignee: Zhejiang Jin Xin Mstar Technology Ltd
Current assignee: Zhejiang Jin Xin Mstar Technology Ltd
Priority date: 2017-12-19
Filing date: 2017-12-19
Publication date: 2018-06-22
Anticipated expiration: 2037-12-19
Also published as: CN108192425B

Abstract

The invention belongs to thermal transfer technology fields.The invention discloses a kind of heat-transferring printing paper high-temperaure coating liquid, it is made by raw materials such as starch, modified alta-mud, modification infusorial earth, water-base resin, gas phase nano silica, nano-titanium dioxide, glucose, surfactant and water, modified alta-mud therein is made by bentonite, potassium acetate solution, sodium lignin sulfonate, silane coupling agent and water, and modification infusorial earth is made by diatomite, sodium carboxymethylcellulose, silane coupling agent and water.Heat-transferring printing paper high temperature resistance can be assigned after heat-transferring printing paper high-temperaure coating liquid coating in the present invention, heat-transferring printing paper can also be caused to have many advantages, such as that print quality is good, rate of drying is fast, stable storing, thermal transfer efficiency can be improved simultaneously, thermally transferred pattern clean mark saturation obtained, color fastness are high.

Description

A kind of heat-transferring printing paper high-temperaure coating liquid

Technical field

The present invention relates to thermal transfer technology field, more particularly, to a kind of heat-transferring printing paper high-temperaure coating liquid.

Background technology

Thermal transfer technology is a kind of emerging printing technology, belongs to water-free dyeing technology, it is possible to reduce dyeing and printing sewage is dirty Dye；Heat-transferring printing paper is a kind of fabric for containing polyester or the transfer carrier of associated materials printing, uses thermal transfer dyestuff system The ink of work is printed to the pattern of required printing and dyeing on heat-transferring printing paper by printer, is then bonded the printing surface of heat-transferring printing paper On to the fabric or material for needing to print and 200 DEG C or more are heated to, the dyestuff in ink, which is heated, to be sublimate on fabric or material, Realize the transfer printing and dyeing of pattern；But existing heat-transferring printing paper dry tack free speed is slow, and for high temperature tolerance level not Good, due to these problems, the quality of thermal transfer is often bad, while the inefficiency of thermal transfer.

Invention content

To solve the above problems, the present invention provides one kind can assign heat-transferring printing paper high temperature resistance, rapid dry, height The heat-transferring printing paper of transfer quality high-temperaure coating liquid.

To achieve the above object, the technical solution adopted by the present invention is as follows：

A kind of heat-transferring printing paper high-temperaure coating liquid, is made by the raw material of following parts by weight：

20~30 parts of starch, 15~25 parts of modified alta-mud, 15~25 parts of modification infusorial earth, 20~25 parts of water-base resin, gas phase 10~15 parts of nano silicon dioxide, 10~15 parts of nano-titanium dioxide, 15~20 parts of glucose, 2~3 parts of surfactant, water 100 parts.

Adding some modified inorganic minerals improves the ability of supporting ink well of coating formed after coating solution coating, nano-silica Change titanium and aerosil then plays the role of filling coating solution void among particles, make coating obtained more smooth； Starch and water-base resin are added as thickener and binding agent, and glucose plays the role of controlling viscosity, and surfactant plays Improve the effect of stock dispersion.

Preferably, modified alta-mud is by bentonite, 1mol/L potassium acetate solutions, sodium lignin sulfonate, silane coupling agent With water by weight 1：（1.0~1.5）：（0.1~0.3）：（0.05~0.07）：（0.8~1.0）It is made.

Preferably, modified alta-mud is made by following methods, bentonite is mixed with 1mol/L potassium acetate solutions, then With ball milling under 1000~2000rpm rotating speeds 1~1.5 hour, 1~2 hour obtained bentonite mixing slurry is then stood, it then will be swollen The native mixing slurry of profit is dry and 30~40 minutes obtained just intercalation compound bentonites are handled at 300~400 DEG C, then by first intercalation swelling Soil is mixed with sodium lignin sulfonate, silane coupling agent, water and ball milling 50~70 minutes under 1500~2500rpm rotating speeds, then Modified alta-mud is made after drying.

Mainly in two steps, the first step is the expansion of interlamellar spacing to bentonite intercalation modifying, and second step is sodium lignin sulfonate It is inserted into.The first step uses the method that bentonite and potassium acetate solution are mixed simultaneously ball milling to carry out, and has between bentonite bed abundant Interlayer ion, these interlayer ions have higher activity, and after potassium acetate and bentonite mixing and ball milling, bentonite can be by machine Tool crushes, and the particle for becoming smaller can simultaneously activate the activity of its interlayer ion, and during this, potassium acetate also can part Into bentonitic interlayer, the standing after ball milling is in order to which more potassium acetates is made to have high activity between replacing bentonite bed Ion, even if also more potassium acetates enter bentonitic interlayer and are stabilized, high-temperature process after standing will be between bentonite bed Potassium acetate remove, and then complete the expansion of bentonite bed spacing, the insertion of the heat resistant polymer for next step is carried out Prepare；Sodium lignin sulfonate is selected in the insertion of second step polymer, the first intercalation compound bentonite and lignin formed by the first step Sodium sulfonate, silane coupling agent, water mixing and ball milling carry out intercalation modifying, using mechanical force so that the sodium termination branch of sodium lignin sulfonate To bentonitic interlayer, and the other end of sodium lignin sulfonate long-chain is free in outside, can be formed one end in this way and is grafted on swelling On soil, structure that the other end dissociates outside can improve the ability of supporting ink well of coating in this way, can also accelerate the rate of drying of ink. For above-mentioned two steps intercalation processing all using mechanical force intercalation, this quadrat method is easy, can quickly produce, and two step intercalation processings Effect is preferable.

Preferably, modification infusorial earth is by diatomite, sodium carboxymethylcellulose, silane coupling agent and water by weight 100：（2~5）：（1~3）：（100~120）It is made.

Preferably, modification infusorial earth is made by following methods, diatomite in dust technology is impregnated 2~3 hours, is dried Diatomite after calcination processing, is then added in potassium hydroxide solution by calcination processing 1~2 hour at 300~400 DEG C afterwards It impregnates 10~20 minutes, is rinsed with water after immersion to neutrality, after then being mixed with sodium carboxymethylcellulose, silane coupling agent and water Antibacterial diatomite is then made in ball milling 50~70 minutes under 800~1000rpm rotating speeds after drying and crushing.

Diatomite is a kind of biogenic inorganic mineral material, and main component is silica, with porous knot Structure, has a good absorption property, the ink quick adsorption that can will be sprayed on coating surface, but due to its architectural characteristic, The ink of absorption can be clean to discharge when thermal transfer discharges, and has more ink and remains in diatomaceous duct, therefore It needs to be modified it processing.

Diatomaceous modification, as long as there can be the structure of good adsorption properties on its surface grafting, i.e., on its surface A kind of fluff structures are formed, using the good absorption property of diatomite, ink is adsorbed, are then cut ink using fluff structures Diatomaceous surface or superficial face are stayed in, can both play the role of adsorbing ink rapidly in this way, it is also possible that in thermal transfer Shi Moshui can discharge more thorough.To diatomaceous modification, by structured surface group, first handle diatom with dust technology Soil, dust technology have certain oxidisability, can corrode diatomite surface to a certain extent after handling diatomite, make diatom Native surface becomes easier to be modified；By treated, diatomite carries out low temperature calcination after dust technology processing, and one can remove silicon The nitric acid adsorbed in diatomaceous earth（Thermally decompose nitric acid）, two can make nitric acid to diatomaceous modified effect more preferably；It is leaching after calcining Bubble rinses treated diatomite, removes the clast that drifts along for being corroded, also prepares for the alkali process of next step；In next step Alkali process is in order to enable can be grafted the ion of antiseptic in diatomaceous surface and duct in attachment in following step；It connects Branch process is that organic matter is grafted in diatomaceous duct；Sodium carboxymethylcellulose have can be grafted to modified diatomite On sodium end and free longer long-chain tail end, using mechanical force so that the sodium end of sodium carboxymethylcellulose is grafted to diatomite Surface forms one end and is grafted on bentonite, the structure that the other end dissociates outside, can improve the ability of supporting ink well of coating in this way, Also it can accelerate the rate of drying of ink, while can also increase the release rate of ink.

Preferably, diatomite is first crushed to 800~1000 mesh, 2~3mol/L of concentration of dust technology, hydroxide before impregnating A concentration of 2~3mol/L of potassium solution.

Preferably, water-base resin is one in water-based acrylic resin, aqueous polyester resin or waterborne polyurethane resin Kind.

Therefore, the invention has the advantages that：Energy after heat-transferring printing paper in the present invention is applied with high-temperaure coating liquid Enough assign heat-transferring printing paper high temperature resistance, moreover it is possible to so that heat-transferring printing paper has good, fast, stable storing of rate of drying of print quality etc. Advantage, while thermal transfer efficiency can be improved, thermally transferred pattern clean mark saturation obtained, color fastness height.

Specific embodiment

Technical scheme of the present invention is further described With reference to embodiment.

Obviously, described embodiment is only the part of the embodiment of the present invention, instead of all the embodiments.Based on this Embodiment in invention, all other reality that those of ordinary skill in the art are obtained without making creative work Example is applied, shall fall within the protection scope of the present invention.

In the present invention, if not refering in particular to, all equipment and raw material is commercially available or the industry is common, Method in following embodiments is this field conventional method unless otherwise instructed.

Embodiment 1

20 parts of starch, 15 parts of modified alta-mud, 15 parts of modification infusorial earth, 20~25 parts of water-based acrylic resin, gas phase nano two 10 parts of silica, 10 parts of nano-titanium dioxide, 15 parts of glucose, 2 parts of surfactant, 100 parts of water.

Wherein, modified alta-mud is by bentonite, 1mol/L potassium acetate solutions, sodium lignin sulfonate, silane coupling agent and water By weight 1：1.0：0.1：0.05：0.8 is made；Modified alta-mud is made by following methods, by bentonite and 1mol/L acetic acid Potassium solution mixes, and then with ball milling under 1000rpm rotating speeds 1 hour, then stands 1 hour obtained bentonite mixing slurry, then will Bentonite mixing slurry is dry and 30 minutes obtained just intercalation compound bentonites are handled at 300 DEG C, then by first intercalation compound bentonite and wood It is swollen that modification is made after then drying in quality sodium sulfonate, silane coupling agent, water mixing and ball milling 50 minutes under 1500rpm rotating speeds Profit soil；

Meanwhile modification infusorial earth is by diatomite, sodium carboxymethylcellulose, silane coupling agent and water by weight 100：2：1：100 It is made；Modification infusorial earth is made by following methods, and diatomite is first crushed to 800 mesh, then by diatomite in 2mol/L dust technologies It is middle impregnate 2 hours, after drying at 300 DEG C calcination processing 1 hour, the diatomite after calcination processing is then added to 2mol/L Impregnate 10 minutes, be rinsed with water after immersion to neutrality in potassium hydroxide solution, then with sodium carboxymethylcellulose, silane coupling agent After being mixed with water under 800rpm rotating speeds ball milling 50 minutes, antibacterial diatomite is then made after drying and crushing.

Embodiment 2

22 parts of starch, 17 parts of modified alta-mud, 17 parts of modification infusorial earth, 21 parts of aqueous polyester resin, gas phase nano silica 11 parts, 11 parts of nano-titanium dioxide, 16 parts of glucose, 2.2 parts of surfactant, 100 parts of water.

Wherein, modified alta-mud is by bentonite, 1mol/L potassium acetate solutions, sodium lignin sulfonate, silane coupling agent and water By weight 1：1.1：0.15：0.055：0.85 is made；Modified alta-mud is made by following methods, by bentonite and 1mol/L second The mixing of sour potassium solution then with ball milling under 1200rpm rotating speeds 1.1 hours, then stands 1.2 hours obtained bentonite mixing slurries, Then 35 minutes obtained just intercalation compound bentonites are handled by the drying of bentonite mixing slurry and at 320 DEG C, then by first intercalation swelling Soil is mixed with sodium lignin sulfonate, silane coupling agent, water and ball milling 55 minutes under 1700rpm rotating speeds, is made after then drying Modified alta-mud；

Meanwhile modification infusorial earth is by diatomite, sodium carboxymethylcellulose, silane coupling agent and water by weight 100：3：1.5： 105 are made；Modification infusorial earth is made by following methods, and diatomite is first crushed to 900 mesh, then that diatomite is dilute in 2.2mol/L Impregnated 2.5 hours in nitric acid, after drying at 320 DEG C calcination processing 1.5 hours, then by after calcination processing diatomite add in Impregnate 15 minutes, be rinsed with water after immersion to neutrality into 2.5mol/L potassium hydroxide solutions, then with sodium carboxymethylcellulose, After silane coupling agent and water mixing under 850rpm rotating speeds ball milling 55 minutes, antibacterial diatomite is then made after drying and crushing.

Embodiment 3

25 parts of starch, 20 parts of modified alta-mud, 20 parts of modification infusorial earth, 22.5 parts of aqueous polyester resin, gas phase nano titanium dioxide 12.5 parts of silicon, 12.5 parts of nano-titanium dioxide, 17.5 parts of glucose, 2.5 parts of surfactant, 100 parts of water.

Wherein, modified alta-mud is by bentonite, 1mol/L potassium acetate solutions, sodium lignin sulfonate, silane coupling agent and water By weight 1：1.25：0.2：0.06：0.9 is made；Modified alta-mud is made by following methods, by bentonite and 1mol/L acetic acid Potassium solution mixes, and then with ball milling under 1500rpm rotating speeds 1.25 hours, then stands 1.5 hours obtained bentonite mixing slurries, so 35 minutes obtained just intercalation compound bentonites are handled by the drying of bentonite mixing slurry and at 350 DEG C afterwards, then by first intercalation compound bentonite It is mixed with sodium lignin sulfonate, silane coupling agent, water and ball milling 60 minutes under 2000rpm rotating speeds, is made and changes after then drying Property bentonite；

Meanwhile modification infusorial earth is by diatomite, sodium carboxymethylcellulose, silane coupling agent and water by weight 100：3.5：2： 110 are made；Modification infusorial earth is made by following methods, and diatomite is first crushed to 900 mesh, then that diatomite is dilute in 2.5mol/L Impregnated 2.5 hours in nitric acid, after drying at 350 DEG C calcination processing 1.5 hours, then by after calcination processing diatomite add in Impregnate 15 minutes, be rinsed with water after immersion to neutrality into 2.5mol/L potassium hydroxide solutions, then with sodium carboxymethylcellulose, After silane coupling agent and water mixing under 900rpm rotating speeds ball milling 60 minutes, antibacterial diatomite is then made after drying and crushing.

Embodiment 4

28 parts of starch, 23 parts of modified alta-mud, 23 parts of modification infusorial earth, 24 parts of aqueous polyester resin, gas phase nano silica 14 parts, 14 parts of nano-titanium dioxide, 19 parts of glucose, 2.8 parts of surfactant, 100 parts of water.

Wherein, modified alta-mud is by bentonite, 1mol/L potassium acetate solutions, sodium lignin sulfonate, silane coupling agent and water By weight 1：1.4：0.25：0.065：0.95 is made；Modified alta-mud is made by following methods, by bentonite and 1mol/L second The mixing of sour potassium solution then with ball milling under 1800rpm rotating speeds 1.4 hours, then stands 1.8 hours obtained bentonite mixing slurries, Then 35 minutes obtained just intercalation compound bentonites are handled by the drying of bentonite mixing slurry and at 380 DEG C, then by first intercalation swelling Soil is mixed with sodium lignin sulfonate, silane coupling agent, water and ball milling 65 minutes under 2300rpm rotating speeds, is made after then drying Modified alta-mud；

Meanwhile modification infusorial earth is by diatomite, sodium carboxymethylcellulose, silane coupling agent and water by weight 100：4：2.5： 115 are made；Modification infusorial earth is made by following methods, and diatomite is first crushed to 900 mesh, then that diatomite is dilute in 2.8mol/L Impregnated 2.5 hours in nitric acid, after drying at 380 DEG C calcination processing 1.5 hours, then by after calcination processing diatomite add in Impregnate 15 minutes, be rinsed with water after immersion to neutrality into 2.5mol/L potassium hydroxide solutions, then with sodium carboxymethylcellulose, After silane coupling agent and water mixing under 950rpm rotating speeds ball milling 65 minutes, antibacterial diatomite is then made after drying and crushing.

Embodiment 5

30 parts of starch, 25 parts of modified alta-mud, 25 parts of modification infusorial earth, 20~25 parts of waterborne polyurethane resin, gas phase nano two 15 parts of silica, 15 parts of nano-titanium dioxide, 20 parts of glucose, 3 parts of surfactant, 100 parts of water.

Wherein, modified alta-mud is by bentonite, 1mol/L potassium acetate solutions, sodium lignin sulfonate, silane coupling agent and water By weight 1：1.5：0.3：0.07：1.0 it is made；Modified alta-mud is made by following methods, by bentonite and 1mol/L acetic acid Potassium solution mixes, and then with ball milling under 2000rpm rotating speeds 1.5 hours, then stands 2 hours obtained bentonite mixing slurries, then It is bentonite mixing slurry is dry and handle at 400 DEG C just intercalation compound bentonite is made within 40 minutes, then by first intercalation compound bentonite and Sodium lignin sulfonate, silane coupling agent, water mixing and ball milling 70 minutes under 2500rpm rotating speeds, are made after then drying and are modified Bentonite；

Meanwhile modification infusorial earth is by diatomite, sodium carboxymethylcellulose, silane coupling agent and water by weight 100：5：3：120 It is made；Modification infusorial earth is made by following methods, and diatomite is first crushed to 1000 mesh, then by diatomite in 3mol/L dust technologies It is middle impregnate 3 hours, after drying at 400 DEG C calcination processing 2 hours, the diatomite after calcination processing is then added to 3mol/L Impregnate 20 minutes, be rinsed with water after immersion to neutrality in potassium hydroxide solution, then with sodium carboxymethylcellulose, silane coupling agent After being mixed with water under 1000rpm rotating speeds ball milling 70 minutes, antibacterial diatomite is then made after drying and crushing.

It should be understood that those skilled in the art, it can be improved or be become according to the above description It changes, and all these modifications and variations should all belong to the protection domain of appended claims of the present invention.

Claims

1. a kind of heat-transferring printing paper high-temperaure coating liquid, it is characterised in that be made by the raw material of following parts by weight：

2. a kind of heat-transferring printing paper high-temperaure coating liquid according to claim 1, it is characterised in that：

The modified alta-mud is by bentonite, 1mol/L potassium acetate solutions, sodium lignin sulfonate, silane coupling agent and water by weight Measure ratio 1：（1.0~1.5）：（0.1~0.3）：（0.05~0.07）：（0.8~1.0）It is made.

3. a kind of heat-transferring printing paper high-temperaure coating liquid according to claim 2, it is characterised in that：

The modified alta-mud is made by following methods, bentonite is mixed with 1mol/L potassium acetate solutions, then with 1000 Then ball milling 1~1.5 hour under~2000rpm rotating speeds stands 1~2 hour obtained bentonite mixing slurry, then mixes bentonite It closes slurry drying and is handled at 300~400 DEG C and just intercalation compound bentonite is made within 30~40 minutes, then by first intercalation compound bentonite and wood Quality sodium sulfonate, silane coupling agent, water mixing and ball milling 50~70 minutes under 1500~2500rpm rotating speeds, after then drying Modified alta-mud is made.

4. a kind of heat-transferring printing paper high-temperaure coating liquid according to claim 1, it is characterised in that：

The modification infusorial earth is by diatomite, sodium carboxymethylcellulose, silane coupling agent and water by weight 100：（2~5）：（1~3）：（100~120）It is made.

5. a kind of heat-transferring printing paper high-temperaure coating liquid according to claim 4, it is characterised in that：

The modification infusorial earth is made by following methods, diatomite is impregnated 2~3 hours in dust technology, 300 after drying Diatomite after calcination processing is then added in potassium hydroxide solution and impregnates 10 by calcination processing 1~2 hour at~400 DEG C It~20 minutes, is rinsed with water after immersion to neutrality, 800 after then being mixed with sodium carboxymethylcellulose, silane coupling agent and water Antibacterial diatomite is then made in ball milling 50~70 minutes under~1000rpm rotating speeds after drying and crushing.

6. a kind of heat-transferring printing paper high-temperaure coating liquid according to claim 4, it is characterised in that：

The diatomite is first crushed to 800~1000 mesh, 2~3mol/L of concentration of the dust technology, the hydroxide before impregnating A concentration of 2~3mol/L of potassium solution.

7. a kind of heat-transferring printing paper high-temperaure coating liquid according to claim 1, it is characterised in that：

The water-base resin is one kind in water-based acrylic resin, aqueous polyester resin or waterborne polyurethane resin.