CN116535895A - Preparation method of environment-friendly non-mineral printing green ink - Google Patents

Abstract

The invention discloses a preparation method of green ink for environment-friendly non-mineral printing, which comprises the steps of preparing shells, rapeseeds, wheat straws, semitransparent polylactic acid, natural resin and aqueous emulsion with required colors, respectively crushing, grinding the shells, the rapeseeds and the wheat straws, carrying out nano treatment after the treatment, and then drying in the sun for later use; extracting fatty oil from the rapeseed powder by a physical or chemical method, delivering wheat straw to an electric power plant for combustion, collecting the ash after combustion, adding the ground shell powder and ash into the fatty oil, and uniformly mixing through a fluidized bed column to obtain composite grease; adding the composite grease into natural resin, heating and stirring; the printing ink material can be completely separated out and precipitated to obtain pure biomass and extract, and the byproducts can be used as new materials, biological fuels and agricultural fertilizers, so that the heavy-duty recycling of wastes can be realized, and the functions of renewable energy source utilization, energy conservation and emission reduction are realized.

Description

Preparation method of environment-friendly non-mineral printing green ink

Technical Field

The invention belongs to the technical field of green ink, and particularly relates to a preparation method of green ink for environment-friendly non-mineral printing.

Background

The existing printing ink generally uses mineral oil as a main component, and the compounds are not easy to degrade and difficult to decompose and remove, so that the long-term deposition in the land or water can pollute the environment, and the cost of environmental protection treatment is increased.

Mineral-containing printing inks generally contain harmful substances such as volatile organic compounds and heavy metals, which may affect human health and induce diseases such as nervous system diseases, liver diseases, skin diseases, etc.

The existing mineral-containing ink needs to consume larger energy and funds in the manufacturing process, is unfavorable for the regeneration and recycling of resources, and is difficult to realize the sustainable development of an ecological system.

In view of the above, the existing mineral-containing printing ink has some defects and shortcomings in environmental protection, human health, safe production, quality of printed matter and the like, and needs to be improved and replaced as soon as possible.

Disclosure of Invention

The invention aims to provide a preparation method of green ink for environment-friendly non-mineral printing, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the preparation method of the green ink for environment-friendly non-mineral printing comprises the following materials in parts by weight: 10-20 parts of shell, 10-20 parts of rapeseed, 10-20 parts of wheat straw, 10-20 parts of semitransparent polylactic acid, 5-10 parts of natural resin and 5-10 parts of aqueous emulsion;

the preparation method comprises the following specific preparation steps:

step one: material preparation: preparing shells, rapeseeds, wheat straws, semitransparent polylactic acid, natural resin and aqueous emulsion with required colors, respectively crushing, grinding the shells, the rapeseeds and the wheat straws, carrying out nano treatment after the treatment, and then drying in the sun for later use;

step two: pigment is prepared by the following steps: extracting fatty oil from the rapeseed powder by a physical or chemical method, delivering wheat straw to an electric power plant for combustion, collecting the ash after combustion, adding the ground shell powder and ash into the fatty oil, and uniformly mixing through a fluidized bed column to obtain composite grease;

step three: and (3) processing and modulating: adding the composite grease into natural resin, heating and stirring, adding an emulsifying agent for mixing, emulsifying and precipitating to obtain pigment;

step four: mixing the obtained pigment with a viscous agent and an adhesive, and then adding a drying agent and a color stabilizer to obtain printing ink;

step five: adding the ink into baking equipment, baking at 150-200deg.C, and homogenizing the consistency of the ink to obtain environment-friendly non-mineral green ink;

step six: pouring the prepared ink into an air-tight container, and placing the container in a dry and shady place at the temperature of 20-30 ℃ to avoid direct sunlight and high-temperature environment and ensure stable quality of the ink.

Further, the natural resin is rosin resin or gentian resin.

Further, the working temperature during the crushing of the shells, the rapes and the wheat straw in the step one is lower than 80 ℃.

Further, the operation temperature of the fluidized bed column in the second step is controlled within the range of 60-80 ℃.

Further, the stirring and mixing in the third and fourth steps are performed by an electrothermal mixer, and the temperature during the mixing is maintained within a range of 40-60 ℃.

Further, the thickener is an environment-friendly plant thickener, the plant thickener is carrageenan, and the usage amount of the thickener is 0.5% -3% of the total amount of the pigment.

Further, the adhesive is an environment-friendly adhesive, the environment-friendly adhesive is natural fatty acid or calcium carbonate, and the usage amount of the adhesive is 2% -5% of the total amount of the pigment.

Further, the drying agent is an environment-friendly dryer, the environment-friendly dryer is silicon dioxide, and the usage amount of the drying agent is 2% -5% of the total amount of the pigment.

Further, the color stabilizer is an environment-friendly color stabilizer, the environment-friendly color stabilizer is anthocyanin, chlorophyll or theafat, and the usage amount of the color stabilizer is 1% -3% of the total amount of the pigment.

Compared with the prior art, the invention has the beneficial effects that: the environment-friendly printing ink disclosed by the invention is strong in environment friendliness, does not contain harmful substances, replaces a traditional petroleum product, can reduce pollution and ecological damage to the environment, is a sustainable green choice, can show rich colors by utilizing natural resin, is not weaker than the traditional printing ink in perfect degree of record, can be widely applied to the fields of publishing, printing, packaging and the like, can play a role in enhancing the durability and stability of the printing ink, can fully separate out and precipitate pure biomass and extract after being used as a printing ink material, can be used as a new material, a biofuel and an agricultural fertilizer, can realize the heavy-duty recycling of wastes, and can realize the functions of recycling renewable energy sources and energy conservation and emission reduction.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The preparation method of the green ink for environment-friendly non-mineral printing comprises the following materials in parts by weight: 10 parts of shell, 10 parts of rapeseed, 10 parts of wheat straw, 10 parts of semitransparent polylactic acid, 5 parts of natural resin and 5 parts of aqueous emulsion;

the preparation method comprises the following specific preparation steps:

step one: material preparation: preparing shells, rapeseeds, wheat straws, semitransparent polylactic acid, natural resin and aqueous emulsion with required colors, respectively crushing, grinding the shells, the rapeseeds and the wheat straws, carrying out nano treatment after the treatment, and then drying in the sun for later use;

step two: pigment is prepared by the following steps: extracting fatty oil from rapeseed powder by a physical method, delivering wheat straw to an electric power plant for combustion, collecting ash after combustion, adding the ground shell powder and ash into the fatty oil, and uniformly mixing through a fluidized bed column to obtain composite grease;

step three: and (3) processing and modulating: adding the composite grease into natural resin, heating and stirring, adding an emulsifying agent for mixing, emulsifying and precipitating to obtain pigment;

step four: mixing the obtained pigment with a viscous agent and an adhesive, and then adding a drying agent and a color stabilizer to obtain printing ink;

step five: adding the ink into baking equipment, baking at 150 ℃ to obtain environment-friendly non-mineral green ink, wherein the consistency of the ink is uniform;

step six: pouring the prepared ink into an air-tight container, and placing the container at a dry and cool place within the temperature range of 20 ℃ to avoid direct sunlight and high-temperature environment and ensure stable quality of the ink.

Wherein the natural resin is rosin resin or gentian resin.

Further, the working temperature during the crushing of the shells, the rapes and the wheat straw in the step one is lower than 80 ℃.

Wherein, the operation temperature of the fluidized bed column in the second step is controlled within the range of 60 ℃.

Wherein the stirring and mixing in the third and fourth steps are performed by an electrothermal mixer, and the temperature during mixing is maintained within a range of 40 ℃.

Wherein the thickening agent is an environment-friendly plant thickening agent, the plant thickening agent is carrageenan, and the use amount of the thickening agent is 0.5% of the total amount of the pigment.

The adhesive is environment-friendly, the environment-friendly adhesive is natural fatty acid, and the usage amount of the adhesive is 2% of the total amount of the pigment.

And the drying agent is an environment-friendly dryer, the environment-friendly dryer is silicon dioxide, and the usage amount of the drying agent is 2% of the total amount of the pigment.

The color stabilizer is an environment-friendly color stabilizer, the environment-friendly color stabilizer is anthocyanin, and the use amount of the color stabilizer is 1% of the total amount of pigment.

Example 2

The preparation method of the green ink for environment-friendly non-mineral printing comprises the following materials in parts by weight: 15 parts of shell, 15 parts of rapeseed, 15 parts of wheat straw, 15 parts of semitransparent polylactic acid, 8 parts of natural resin and 7 parts of aqueous emulsion;

the preparation method comprises the following specific preparation steps:

step one: material preparation: preparing shells, rapeseeds, wheat straws, semitransparent polylactic acid, natural resin and aqueous emulsion with required colors, respectively crushing, grinding the shells, the rapeseeds and the wheat straws, carrying out nano treatment after the treatment, and then drying in the sun for later use;

step two: pigment is prepared by the following steps: extracting fatty oil from rapeseed powder by a chemical method, delivering wheat straw to an electric power plant for combustion, collecting ash after combustion, adding the ground shell powder and ash into the fatty oil, and uniformly mixing through a fluidized bed column to obtain composite grease;

step three: and (3) processing and modulating: adding the composite grease into natural resin, heating and stirring, adding an emulsifying agent for mixing, emulsifying and precipitating to obtain pigment;

step four: mixing the obtained pigment with a viscous agent and an adhesive, and then adding a drying agent and a color stabilizer to obtain printing ink;

step five: adding the ink into baking equipment, baking at 170 ℃ to obtain environment-friendly non-mineral green ink, wherein the consistency of the ink is uniform;

step six: pouring the prepared ink into an air sealing container, and placing the container in a dry and cool place within the temperature range of 25 ℃ to avoid direct sunlight and high-temperature environment and ensure stable quality of the ink.

Wherein the natural resin is rosin resin or gentian resin.

Further, the working temperature during the crushing of the shells, the rapes and the wheat straw in the step one is lower than 80 ℃.

Wherein, the operation temperature of the fluidized bed column in the second step is controlled within the range of 70 ℃.

Wherein the stirring and mixing in the third and fourth steps are performed by an electrothermal mixer, and the temperature during mixing is maintained within 50 ℃.

Wherein the thickening agent is an environment-friendly plant thickening agent, the plant thickening agent is carrageenan, and the use amount of the thickening agent is 1% of the total amount of the pigment.

The adhesive is environment-friendly, the environment-friendly adhesive is natural fatty acid, and the usage amount of the adhesive is 3% of the total amount of the pigment.

And the drying agent is an environment-friendly dryer, the environment-friendly dryer is silicon dioxide, and the usage amount of the drying agent is 3% of the total amount of the pigment.

The color stabilizer is environment-friendly, chlorophyll and the usage amount of the color stabilizer is 2% of the total amount of the pigment.

Example 3

The preparation method of the green ink for environment-friendly non-mineral printing comprises the following materials in parts by weight: 20 parts of shell, 20 parts of rapeseed, 20 parts of wheat straw, 20 parts of semitransparent polylactic acid, 10 parts of natural resin and 10 parts of aqueous emulsion;

the preparation method comprises the following specific preparation steps:

step one: material preparation: preparing shells, rapeseeds, wheat straws, semitransparent polylactic acid, natural resin and aqueous emulsion with required colors, respectively crushing, grinding the shells, the rapeseeds and the wheat straws, carrying out nano treatment after the treatment, and then drying in the sun for later use;

step two: pigment is prepared by the following steps: extracting fatty oil from rapeseed powder by a physical method, delivering wheat straw to an electric power plant for combustion, collecting ash after combustion, adding the ground shell powder and ash into the fatty oil, and uniformly mixing through a fluidized bed column to obtain composite grease;

step three: and (3) processing and modulating: adding the composite grease into natural resin, heating and stirring, adding an emulsifying agent for mixing, emulsifying and precipitating to obtain pigment;

step four: mixing the obtained pigment with a viscous agent and an adhesive, and then adding a drying agent and a color stabilizer to obtain printing ink;

step five: adding the ink into baking equipment, baking at 200 ℃, and obtaining environment-friendly non-mineral green ink;

step six: pouring the prepared ink into an air sealing container, and placing the container at a dry and cool place within the temperature range of 30 ℃ to avoid direct sunlight and high-temperature environment and ensure stable quality of the ink.

Wherein the natural resin is rosin resin or gentian resin.

Further, the working temperature during the crushing of the shells, the rapes and the wheat straw in the step one is lower than 80 ℃.

Wherein, the operation temperature of the fluidized bed column in the second step is controlled within the range of 80 ℃.

Wherein the stirring and mixing in the third and fourth steps are performed by an electrothermal mixer, and the temperature during mixing is maintained within a range of 60 ℃.

Wherein the thickening agent is an environment-friendly plant thickening agent, the plant thickening agent is carrageenan, and the use amount of the thickening agent is 3% of the total amount of the pigment.

The adhesive is environment-friendly, the environment-friendly adhesive is calcium carbonate, and the usage amount of the adhesive is 5% of the total amount of the pigment.

And the drying agent is an environment-friendly dryer, the environment-friendly dryer is silicon dioxide, and the usage amount of the drying agent is 5% of the total amount of the pigment.

The color stabilizer is an environment-friendly color stabilizer, the environment-friendly color stabilizer is thealipoxin, and the usage amount of the color stabilizer is 3% of the total amount of the pigment.

The working principle and the using flow of the invention are as follows: the environment-friendly printing ink disclosed by the invention is strong in environment friendliness, does not contain harmful substances, replaces a traditional petroleum product, can reduce pollution and ecological damage to the environment, is a sustainable green choice, can show rich colors by utilizing natural resin, is not weaker than the traditional printing ink in perfect degree of record, can be widely applied to the fields of publishing, printing, packaging and the like, can play a role in enhancing the durability and stability of the printing ink, can fully separate out and precipitate pure biomass and extract after being used as a printing ink material, can be used as a new material, a biofuel and an agricultural fertilizer, can realize the heavy-duty recycling of wastes, and can realize the functions of recycling renewable energy sources and energy conservation and emission reduction.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The preparation method of the green ink for environment-friendly non-mineral printing is characterized by comprising the following materials in parts by weight: 10-20 parts of shell, 10-20 parts of rapeseed, 10-20 parts of wheat straw, 10-20 parts of semitransparent polylactic acid, 5-10 parts of natural resin and 5-10 parts of aqueous emulsion;

the preparation method comprises the following specific preparation steps:

step one: material preparation: preparing shells, rapeseeds, wheat straws, semitransparent polylactic acid, natural resin and aqueous emulsion with required colors, respectively crushing, grinding the shells, the rapeseeds and the wheat straws, carrying out nano treatment after the treatment, and then drying in the sun for later use;

step two: pigment is prepared by the following steps: extracting fatty oil from the rapeseed powder by a physical or chemical method, delivering wheat straw to an electric power plant for combustion, collecting the ash after combustion, adding the ground shell powder and ash into the fatty oil, and uniformly mixing through a fluidized bed column to obtain composite grease;

step three: and (3) processing and modulating: adding the composite grease into natural resin, heating and stirring, adding an emulsifying agent for mixing, emulsifying and precipitating to obtain pigment;

step four: mixing the obtained pigment with a viscous agent and an adhesive, and then adding a drying agent and a color stabilizer to obtain printing ink;

step five: adding the ink into baking equipment, baking at 150-200deg.C, and homogenizing the consistency of the ink to obtain environment-friendly non-mineral green ink;

step six: pouring the prepared ink into an air-tight container, and placing the container in a dry and shady place at the temperature of 20-30 ℃ to avoid direct sunlight and high-temperature environment and ensure stable quality of the ink.

2. The method for preparing the green ink for environment-friendly non-mineral printing, which is characterized by comprising the following steps of: the natural resin is rosin resin or gentian resin.

3. The method for preparing the green ink for environment-friendly non-mineral printing, which is characterized by comprising the following steps of: the working temperature during the crushing of the shells, the rapeseeds and the wheat straw in the step one is lower than 80 ℃.

4. The method for preparing the green ink for environment-friendly non-mineral printing, which is characterized by comprising the following steps of: and in the second step, the operation temperature of the fluidized bed column is controlled within the range of 60-80 ℃.

5. The method for preparing the green ink for environment-friendly non-mineral printing, which is characterized by comprising the following steps of: the stirring and mixing in the third step and the fourth step are completed by an electrothermal mixer, and the temperature during mixing is kept in the range of 40-60 ℃.

6. The method for preparing the green ink for environment-friendly non-mineral printing, which is characterized by comprising the following steps of: the thickening agent is an environment-friendly plant thickening agent, the plant thickening agent is carrageenan, and the use amount of the thickening agent is 0.5% -3% of the total amount of the pigment.

7. The method for preparing the green ink for environment-friendly non-mineral printing, which is characterized by comprising the following steps of: the adhesive is environment-friendly, and is natural fatty acid or calcium carbonate, and the usage amount of the adhesive is 2% -5% of the total amount of the pigment.

8. The method for preparing the green ink for environment-friendly non-mineral printing, which is characterized by comprising the following steps of: the drying agent is an environment-friendly dryer, the environment-friendly dryer is silicon dioxide, and the usage amount of the drying agent is 2% -5% of the total amount of the pigment.

9. The method for preparing the green ink for environment-friendly non-mineral printing, which is characterized by comprising the following steps of: the color stabilizer is an environment-friendly color stabilizer, the environment-friendly color stabilizer is anthocyanin, chlorophyll or thealipoprotein, and the use amount of the color stabilizer is 1% -3% of the total amount of the pigment.