WO2023241256A1 - Formulation of nano zinc oxide antibacterial material and manufacturing process therefor - Google Patents

Abstract

A nano zinc oxide antibacterial material and a manufacturing process therefor, belonging to the field of the preparation of nano zinc oxide antibacterial materials. The constituents of the nano zinc oxide antibacterial material comprise: zinc oxide, a preservative, an antibacterial agent, an antioxidant, deionized water and a material, and the ratio of zinc oxide : the preservative : the antibacterial agent : the antioxidant : deionized water is 10 : 1 : 1 : 2 : 60. The manufacturing process for the nano zinc oxide antibacterial material comprises the following steps: S1: dissolving zinc oxide; S2: filtering out impurities; S3: preparing nano zinc oxide; S4: adding additives; S5: adding a material; and S6: drying and sterilizing same. By means of the present solution, the oxidation resistance, corrosion resistance and antibacterial property of the material is improved, such that the material has a longer service life and a better comfort level, and the value of the material is increased.

Description

Formula of a nano zinc oxide antibacterial material and its manufacturing process

This invention claims the priority of the earlier application submitted to the State Intellectual Property Office of China on June 17, 2022, with the patent application number 202210692422.4 and the invention name being "a formula of nano zinc oxide antibacterial material and its manufacturing process". The entire contents of the above-mentioned prior applications are incorporated herein by reference.

Technical field

The present invention relates to the field of preparation of nano zinc oxide antibacterial materials, and more specifically, to a formula of nano zinc oxide antibacterial materials and a manufacturing process thereof.

Background technique

Silk fiber materials are loved by consumers because of their smooth, soft texture, elasticity, bright and soft luster. However, with the emergence of chemical fibers and synthetic fibers, the functional limitations of silk products have become increasingly apparent. At the same time, due to the existing materials The antibacterial and antioxidant properties are poor, so we propose a formula of nano zinc oxide antibacterial material and its manufacturing process.

Contents of the invention

In view of the above-mentioned problems existing in the prior art, the purpose of the present invention is to provide a formula of nano zinc oxide antibacterial material and its manufacturing process, which can increase the oxidation resistance, corrosion resistance and antibacterial properties of the material, making the material The service life is longer, the comfort is better, and the value of the material is increased.

In order to solve the above problems, the present invention adopts the following technical solutions:

A formula of nano zinc oxide antibacterial material. The formula ingredients of the nano zinc oxide antibacterial material include: zinc oxide, preservative, antibacterial agent, antioxidant, deionized water and materials, and the zinc oxide: preservative: antibacterial The ratio of agent: antioxidant: deionized water is 10:1:1:2:60.

Further, the preservative is a mixture of nitrite and sulfur dioxide, the antibacterial agent is a mixture of hydrogen peroxide and ethanol, and the antioxidant is a mixture of tea polyphenols and flavonoids.

A manufacturing process of nano zinc oxide antibacterial material, the manufacturing process includes the following steps:

S1: Dissolve zinc oxide, place 1 part of zinc oxide in a dry beaker, add 6 parts of deionized water to the beaker, heat the beaker, stir continuously during the heating process, until the zinc oxide Completely dissolve in deionized water and stop stirring;

S2: Filter impurities, obtain the zinc oxide solution dissolved in S1, filter the zinc oxide solution, and place the filtered solution in a flask;

S3: Prepare nano-zinc oxide, obtain the filtered zinc oxide solution in S2, pass carbon dioxide gas into the solution, heat the flask, heat it to a temperature of 80 to 90 degrees Celsius, then insulate it, and crystallize the insulated solution. Processing, crushing and roasting the crystals to obtain nano zinc oxide powder, and dissolving the nano zinc oxide in water to form an aqueous solution;

S4: Add additives, obtain the aqueous solution in S3, and add preservatives, antibacterial agents, and antioxidants to the aqueous solution. Use a stirring rod to stir when adding preservatives, antibacterial agents, and antioxidants;

S5: Add materials, add materials to the aqueous solution with additives added in S4, and heat the aqueous solution and keep it warm. The heating temperature is 80 to 90 degrees Celsius;

S6: Drying and sterilization treatment: Take out the materials processed in S5 and place them in the drying room for 2 to 3 hours. The drying temperature is 60 to 70 degrees Celsius. After drying, the materials are sterilized and stored after sterilization.

Further, the method of heating the beaker in S1 is: heating through a heating furnace with a heating rate of 4 to 5 degrees Celsius per minute, until the heating temperature reaches 60 to 80 degrees Celsius, stopping heating and maintaining the temperature.

Further, the specific steps of filtering the zinc oxide solution in S2 are: coarsely filtering the zinc oxide solution using coarse filter paper, filtering to remove large particle impurities in the solution, and the filtered solution is subjected to secondary filtering through an ultrafiltration membrane. filter.

Further, the method of heating the beaker in S3 is: heat the flask to 80 to 90 degrees Celsius, stop heating and perform heat preservation treatment, the heat preservation time is 5 to 6 hours, stop heat preservation and stop introducing carbon dioxide.

Further, the operation method of crushing and roasting in S3 is: use a crushing knife to crush the crystals, the crushed powder is further refined by a crusher, and the crushed crystal powder is roasted at a roasting temperature of It is 500~600 degrees Celsius.

Further, the heating treatment in S5 adopts water bath heating, and heat preservation treatment is performed after heating, and the heat preservation time is 4 to 5 hours.

Furthermore, the sterilization method in S6 adopts dry heat sterilization method, and the heating temperature is 200-300 degrees Celsius, and the heating time is 30-40 minutes.

Compared with the prior art, the present invention has the following beneficial effects:

This solution increases the oxidation resistance, corrosion resistance and antibacterial properties of the material, making the material longer in service life, better in comfort and increasing the value of the material.

Description of the drawings

Figure 1 is a work flow chart of the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention. Obviously, the described embodiments are only some, not all, of the embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts fall within the scope of protection of the present invention.

Please refer to Figure 1, a formula of a nano-zinc oxide antibacterial material. The formula ingredients of the nano-zinc oxide antibacterial material include: zinc oxide, preservatives, antibacterial agents, antioxidants, deionized water and materials; and zinc oxide: anti-corrosion The ratio of agent: antibacterial agent: antioxidant: deionized water is 10:1:1:2:60.

Among them, the preservative is a mixture of nitrite and sulfur dioxide, the antibacterial agent is a mixture of hydrogen peroxide and ethanol, the antioxidant is a mixture of tea polyphenols and flavonoids, and the material is preferably silk.

The specific invention includes the following embodiments:

Example 1

Referring to Figure 1, a manufacturing process for a formula of nano zinc oxide antibacterial material is disclosed. The manufacturing process includes the following steps:

Step 1: Dissolve zinc oxide, take a dry beaker, put 1 part of zinc oxide in the beaker, add 6 parts of deionized water to the beaker, heat the beaker, and keep heating. Stir until the zinc oxide is completely dissolved in the deionized water and stop stirring;

Among them, the specific method of heating the beaker is: heating through a heating furnace with a heating rate of 4 degrees Celsius per minute, stopping heating until the heating temperature reaches 60 degrees Celsius and maintaining the temperature;

Step 2: Filter impurities, obtain the zinc oxide solution dissolved in the first step, filter the zinc oxide solution, and place the filtered solution in a flask;

Among them, the specific steps of filtering the zinc oxide solution are: coarsely filtering the zinc oxide solution using coarse filter paper, filtering to remove large particle impurities in the solution, and the filtered solution is filtered twice through an ultrafiltration membrane;

Step 3: Prepare nano-zinc oxide, obtain the filtered zinc oxide solution in the second step, pass carbon dioxide gas into the solution, and heat the flask until the temperature is 80 degrees Celsius and then insulate it. Perform crystallization treatment, crush and roast the crystals to obtain nano zinc oxide powder, and dissolve the nano zinc oxide in water to form an aqueous solution;

The specific steps of the heating treatment are: heat the flask to 80 degrees Celsius, stop heating and perform heat preservation treatment. The heat preservation time is 5 hours, stop heat preservation and stop introducing carbon dioxide;

The operation method of crushing and roasting is as follows: use a crushing knife to crush the crystals, the crushed powder is further refined through a crusher, and the crushed crystal powder is roasted at a temperature of 500 degrees Celsius;

Step 4: Add additives, obtain the aqueous solution in step 3, and add preservatives, antibacterial agents, and antioxidants to the aqueous solution. Use a stirring rod to stir when adding preservatives, antibacterial agents, and antioxidants;

Step 5: Add materials, add materials to the aqueous solution to which the additives were added in step 4, and heat the aqueous solution. The heat treatment uses water bath heating, and heat preservation treatment after heating. The heat preservation time is 4 hours, and the heating temperature is 80 degrees Celsius. ;

Step 6: Drying and sterilization treatment: Take out the materials processed in step 5 and place them in the drying room for 2 hours. The drying temperature is 60 degrees Celsius. After drying, the materials are sterilized and stored after sterilization;

Specifically, the sterilization method adopts dry heat sterilization method, and the heating temperature is 200 degrees Celsius, and the heating time is 30 minutes.

Example 2

Referring to Figure 1, a manufacturing process for a formula of nano zinc oxide antibacterial material is disclosed. The manufacturing process includes the following steps:

Step 1: Dissolve zinc oxide, take a dry beaker, put 1 part of zinc oxide in the beaker, add 6 parts of deionized water to the beaker, heat the beaker, and keep heating. Stir until the zinc oxide is completely dissolved in the deionized water and stop stirring;

Among them, the specific method of heating the beaker is: heating through a heating furnace, with a heating rate of 4.5 degrees Celsius per minute, until the heating temperature reaches 70 degrees Celsius, stopping heating and maintaining the temperature;

Step 2: Filter impurities, obtain the zinc oxide solution dissolved in the first step, filter the zinc oxide solution, and place the filtered solution in a flask;

Among them, the specific steps of filtering the zinc oxide solution are: coarsely filtering the zinc oxide solution using coarse filter paper, filtering to remove large particle impurities in the solution, and the filtered solution is filtered twice through an ultrafiltration membrane;

Step 3: Prepare nano-zinc oxide, obtain the filtered zinc oxide solution in the second step, pass carbon dioxide gas into the solution, and heat the flask until the temperature is 85 degrees Celsius and then insulate it. Perform crystallization treatment, crush and roast the crystals to obtain nano zinc oxide powder, and dissolve the nano zinc oxide in water to form an aqueous solution;

The specific steps of the heating treatment are: heat the flask to 85 degrees Celsius, stop heating and perform heat preservation treatment. The heat preservation time is 5.5 hours, stop heat preservation and stop introducing carbon dioxide;

The operation method of crushing and roasting is as follows: use a crushing knife to crush the crystals, the crushed powder is further refined through a crusher, and the crushed crystal powder is roasted at a temperature of 550 degrees Celsius;

Step 4: Add additives, obtain the aqueous solution in step 3, and add preservatives, antibacterial agents, and antioxidants to the aqueous solution. Use a stirring rod to stir when adding preservatives, antibacterial agents, and antioxidants;

Step 5: Add materials, add materials to the aqueous solution where the additives were added in step 4, and heat the aqueous solution. The heat treatment uses water bath heating, and heat preservation treatment after heating. The heat preservation time is 4.5 hours, and the heating temperature is 85 degrees Celsius. ;

Step 6: Drying and sterilization treatment. Take out the materials processed in step 5 and place the materials in the drying room for 2.5 hours. The drying temperature is 65 degrees Celsius. After drying, sterilize the materials. After sterilization save;

Specifically, the sterilization method adopts dry heat sterilization method, and the heating temperature is 250 degrees Celsius, and the heating time is 35 minutes.

Example 3

Referring to Figure 1, a manufacturing process for a formula of nano zinc oxide antibacterial material is disclosed. The manufacturing process includes the following steps:

Step 1: Dissolve zinc oxide, take a dry beaker, put 1 part of zinc oxide in the beaker, add 6 parts of deionized water to the beaker, heat the beaker, and keep heating. Stir until the zinc oxide is completely dissolved in the deionized water and stop stirring;

Among them, the specific method of heating the beaker is: heating through a heating furnace, with a heating rate of 5 degrees Celsius per minute, until the heating temperature reaches 80 degrees Celsius, stopping heating and maintaining the temperature;

Step 2: Filter impurities, obtain the zinc oxide solution dissolved in the first step, filter the zinc oxide solution, and place the filtered solution in a flask;

Among them, the specific steps of filtering the zinc oxide solution are: coarsely filtering the zinc oxide solution using coarse filter paper, filtering to remove large particle impurities in the solution, and the filtered solution is filtered twice through an ultrafiltration membrane;

Step 3: Prepare nano-zinc oxide, obtain the zinc oxide solution filtered in the second step, pass carbon dioxide gas into the solution, and heat the flask until the temperature is 90 degrees Celsius and then insulate it. Perform crystallization treatment, crush and roast the crystals to obtain nano zinc oxide powder, and dissolve the nano zinc oxide in water to form an aqueous solution;

The specific steps of the heating treatment are: heat the flask to 90 degrees Celsius, stop heating and perform heat preservation treatment. The heat preservation time is 6 hours, stop heat preservation and stop introducing carbon dioxide;

The operation method of crushing and roasting is as follows: use a crushing knife to crush the crystals, the crushed powder is further refined through a crusher, and the crushed crystal powder is roasted at a temperature of 600 degrees Celsius;

Step 4: Add additives, obtain the aqueous solution in step 3, and add preservatives, antibacterial agents, and antioxidants to the aqueous solution. Use a stirring rod to stir when adding preservatives, antibacterial agents, and antioxidants;

Step 5: Add materials, add materials to the aqueous solution to which the additives were added in Step 4, and heat the aqueous solution. The heat treatment uses water bath heating, and heat preservation treatment after heating. The heat preservation time is 5 hours, and the heating temperature is 90 degrees Celsius. ;

Step 6: Drying and sterilization treatment. Take out the materials processed in step 5 and place the materials in the drying room for 3 hours. The drying temperature is 70 degrees Celsius. After drying, sterilize the materials. After sterilization save;

Specifically, the sterilization method adopts dry heat sterilization method, and the heating temperature is 300 degrees Celsius, and the heating time is 40 minutes.

The above are only preferred specific embodiments of the present invention; however, the protection scope of the present invention is not limited thereto. Any person familiar with the technical field who is familiar with the technical field shall make equivalent substitutions or changes based on the technical solutions and improvement concepts of the present invention within the technical scope disclosed in the present invention, and shall be covered by the protection scope of the present invention.

Claims (9)

1. A formula of nano zinc oxide antibacterial material, characterized in that the formula ingredients of the nano zinc oxide antibacterial material include: zinc oxide, preservatives, antibacterial agents, antioxidants, deionized water and materials, and the zinc oxide: The ratio of preservatives: antibacterial agents: antioxidants: deionized water is 10:1:1:2:60.
2. The formula of nano zinc oxide antibacterial material according to claim 1, characterized in that the preservative is a mixture of nitrite and sulfur dioxide, the antibacterial agent is a mixture of hydrogen peroxide and ethanol, and the antioxidant is A mixture of tea polyphenols and flavonoids.
3. A manufacturing process for nano zinc oxide antibacterial materials, characterized in that the manufacturing process includes the following steps:

   S1: Dissolve zinc oxide, place 1 part of zinc oxide in a dry beaker, add 6 parts of deionized water to the beaker, heat the beaker, stir continuously during the heating process, until the zinc oxide Completely dissolve in deionized water and stop stirring;

   S2: Filter impurities, obtain the zinc oxide solution dissolved in S1, filter the zinc oxide solution, and place the filtered solution in a flask;

   S3: Prepare nano-zinc oxide, obtain the filtered zinc oxide solution in S2, pass carbon dioxide gas into the solution, heat the flask, heat it to a temperature of 80 to 90 degrees Celsius, then insulate it, and crystallize the insulated solution. Processing, crushing and roasting the crystals to obtain nano zinc oxide powder, and dissolving the nano zinc oxide in water to form an aqueous solution;

   S4: Add additives, obtain the aqueous solution in S3, and add preservatives, antibacterial agents, and antioxidants to the aqueous solution. Use a stirring rod to stir when adding preservatives, antibacterial agents, and antioxidants;

   S5: Add materials, add materials to the aqueous solution with additives added in S4, and heat the aqueous solution and keep it warm. The heating temperature is 80 to 90 degrees Celsius;

   S6: Drying and sterilization treatment: Take out the materials processed in S5 and place them in the drying room for 2 to 3 hours. The drying temperature is 60 to 70 degrees Celsius. After drying, the materials are sterilized and stored after sterilization.
4. The manufacturing process of nano zinc oxide antibacterial material according to claim 3, characterized in that, in step S1, the beaker is heated by heating in a heating furnace at a heating rate of 4 to 5 degrees Celsius per minute until the beaker is heated. Stop heating when the temperature reaches 60 to 80 degrees Celsius and maintain the temperature.
5. The manufacturing process of nano zinc oxide antibacterial material according to claim 3, characterized in that, in step S2, the specific steps of filtering the zinc oxide solution are: using coarse filter paper to roughly filter the zinc oxide solution, and filtering to remove the solution Large particle impurities in the solution are filtered through the ultrafiltration membrane for secondary filtration.
6. The manufacturing process of nano zinc oxide antibacterial material according to claim 3, characterized in that, in step S3, the way of heating the beaker is: heating the flask to 80-90 degrees Celsius, stopping the heating and doing heat preservation treatment, the heat preservation time After 5 to 6 hours, stop keeping warm and stop introducing carbon dioxide.
7. The manufacturing process of nano zinc oxide antibacterial material according to claim 3, characterized in that in step S3, the operation method of crushing and roasting is: using a crushing knife to crush the crystals, and the crushed powder is processed through a crusher After further refinement, the crushed crystalline powder is roasted at a temperature of 500 to 600 degrees Celsius.
8. The manufacturing process of nano zinc oxide antibacterial material according to claim 3, characterized in that in step S5, water bath heating is used for the heating treatment, and heat preservation treatment is performed after heating, and the heat preservation time is 4 to 5 hours.
9. The manufacturing process of nano zinc oxide antibacterial material according to claim 3, characterized in that in step S6, the sterilization method adopts dry heat sterilization method, and the heating temperature is 200-300 degrees Celsius, and the heating time is 30-40 minute.