CN112500636A - Formula of emulsion pump head and preparation method thereof - Google Patents

Abstract

The application relates to the technical field of packaging processing, and particularly discloses a formula of an emulsion pump head and a preparation method thereof; the formula of the emulsion pump head comprises the following raw materials in parts by weight: 80-100 parts of polypropylene resin; 1-3 parts of an antioxidant; 1-5 parts of a composite antibacterial agent; 0.5-2 parts of a plasticizer; 0.1-0.5 part of lubricant; 1-3 parts of a stabilizer; the compound antibacterial agent is prepared by coating a silane coupling agent on the surface of zinc oxide and then grafting sodium pentachlorophenate. The preparation method comprises the following steps: the preparation method comprises the following steps of uniformly mixing polypropylene resin, an antioxidant, a composite antibacterial agent, a plasticizer, a lubricant and a stabilizer to obtain a material d; heating the material d to 180-200 ℃, melting, extruding and granulating to obtain a material e; and heating the material e to 170-190 ℃, and performing injection molding to obtain the emulsion pump head. The emulsion pump head prepared by the preparation method has good antibacterial performance.

Description

Formula of emulsion pump head and preparation method thereof

Technical Field

The application relates to the technical field of packaging bottle processing, in particular to a formula of an emulsion pump head and a preparation method thereof.

Background

The development of polypropylene industry, PP has advantages of high chemical stability, good heat resistance, easy processing, safety, environmental protection, low price and the like, and the PP has more and more extensive coverage in people's life. In general, a pump head is attached to a bottle opening of a bottle for containing shampoo or cosmetics, and the lotion in the bottle is taken out by pressing. Bacteria are easy to breed at the outlet of the pump head of the emulsion made of PP plastic, and when the pump head is pressed to extrude the emulsion, the bacteria contact the scalp or the face and invade the surface of the skin to cause adverse effects.

In the related art, a quaternary phosphonium salt group or a quaternary ammonium salt group having antibacterial properties has been added to a PP material to impart antibacterial properties to the PP material.

In view of the above-mentioned related art, the inventors considered that the antibacterial property of the emulsion pump head is improved by adding only a single antibacterial agent, and the antibacterial property is limited.

Disclosure of Invention

In order to improve the antibacterial effect of the emulsion pump head, the application provides a formula of the emulsion pump head and a preparation method thereof.

The formula and the preparation method of the emulsion pump head provided by the application adopt the following technical scheme:

in a first aspect, the present application provides a formulation for an emulsion pump head, using the following technical scheme:

the formula of the emulsion pump head comprises the following raw materials in parts by weight:

80-100 parts of polypropylene resin;

1-3 parts of an antioxidant;

1-5 parts of a composite antibacterial agent;

0.5-2 parts of a plasticizer;

0.1-0.5 part of lubricant;

1-3 parts of a stabilizer;

the compound antibacterial agent is prepared by coating a silane coupling agent on the surface of zinc oxide and then grafting sodium pentachlorophenate.

By adopting the technical scheme, the composite antibacterial agent is added into the formula, the composite antibacterial agent combines the advantages of the inorganic antibacterial agent and the natural antibacterial agent, the cost of the antibacterial agent can be reduced, the heat resistance of the natural antibacterial agent can be enhanced, the prepared emulsion pump head is safe and environment-friendly, the antibacterial effect is good, the brittleness can be reduced by the plasticizer added into the formula, and the plastic is easy to process and form; the antioxidant and the stabilizer added in the formula can prevent the pump head from being heated and oxidized in the heating forming or high-temperature use process, so that the plastic is yellowed, cracked and the like; the lubricant added in the formula has the function of preventing the plastic from being stuck on a metal mould during molding, and simultaneously, the surface of the plastic is smooth and beautiful. Therefore, the prepared emulsion pump head has better antibacterial performance and excellent comprehensive performance.

Optionally, the feed additive is prepared from the following raw materials in parts by weight:

85-95 parts of polypropylene resin;

1.5-2.5 parts of antioxidant;

2-4 parts of a composite antibacterial agent;

1-1.5 parts of a plasticizer;

0.2-0.4 part of lubricant;

1.5-2.5 parts of a stabilizer.

By adopting the technical scheme and optimizing the formula, the prepared emulsion pump head has better antibacterial performance and comprehensive performance.

Optionally, the composite antibacterial agent is prepared from the following raw materials in parts by weight:

2-5 parts of a silane coupling agent;

80-120 parts of zinc oxide;

3-5 parts of sodium pentachlorophenate.

By adopting the technical scheme, the zinc oxide is used as the inorganic antibacterial agent, so that the composite antibacterial agent has the advantages of low mobility, safety and environmental protection, the sodium pentachlorophenate has excellent antibacterial rate, and the prepared composite antibacterial agent has better antibacterial effect by combining the zinc oxide with the sodium pentachlorophenate.

Optionally, the composite antibacterial agent comprises the following preparation steps:

putting a silane coupling agent into ethanol, adding zinc oxide into the ethanol, and uniformly stirring to obtain a material a;

mixing the material a for 10-30min, centrifuging, precipitating, and drying to obtain modified nano zinc oxide;

placing the modified nano zinc oxide in ethanol, and carrying out ultrasonic treatment for 20-60min to obtain a material b;

adding sodium pentachlorophenate into the material b, uniformly stirring, heating to 50-60 ℃, and stirring for reaction for 3-5h to obtain a material c;

and filtering, washing and drying the material c to obtain the composite antibacterial agent.

By adopting the technical scheme, two different types of antibacterial agents can be compounded, so that the antibacterial performance is better.

Optionally, the antioxidant comprises antioxidant 1010.

By adopting the technical scheme, the antioxidant 1010 can prevent the plastic from being heated and oxidized during heating forming or high-temperature use, so that the plastic is yellowed, cracked and the like.

Optionally, the plasticizer is one or more of dioctyl phthalate, dibutyl phthalate or diethyl phthalate.

By adopting the technical scheme, dioctyl phthalate or dibutyl phthalate or diethyl phthalate is a high-boiling-point organic compound which can be mixed and dissolved with resin, is nontoxic and odorless and is stable to light and heat, and the brittleness can be obviously reduced when the dioctyl phthalate or dibutyl phthalate or diethyl phthalate is added into pp plastics, so that the plastics are easy to process and form.

Optionally, the lubricant comprises calcium stearate.

Optionally, the stabilizer comprises butyltin mercaptide.

In a second aspect, the present application provides a method for preparing an emulsion pump head, which adopts the following technical scheme:

a preparation method of an emulsion pump head is characterized by comprising the following steps: the preparation method comprises the following preparation steps:

uniformly mixing polypropylene resin, an antioxidant, a composite antibacterial agent, a plasticizer, a lubricant and a stabilizer to obtain a material d; heating the material d to 180-200 ℃, melting, extruding and granulating to obtain a material e;

and heating the material e to 170-190 ℃, and performing injection molding to obtain the emulsion pump head.

By adopting the technical scheme, the process for preparing the emulsion pump head is simple, and the prepared emulsion pump head has good comprehensive performance.

In summary, the present application has the following beneficial effects:

1. the composite antibacterial agent is added into the formula, and combines the advantages of the inorganic antibacterial agent and the natural antibacterial agent, so that the cost of the antibacterial agent can be reduced, the heat resistance of the natural antibacterial agent can be enhanced, the prepared emulsion pump head is safe and environment-friendly, the antibacterial effect is good, the brittleness can be reduced by the plasticizer added into the formula, and the plastic can be easily processed and molded; the antioxidant and the stabilizer added in the formula can prevent the pump head from being heated and oxidized in the heating forming or high-temperature use process, so that the plastic is yellowed, cracked and the like; the lubricant added in the formula has the function of preventing the plastic from being stuck on a metal mould during molding, and simultaneously, the surface of the plastic is smooth and beautiful. Therefore, the prepared emulsion pump head has better antibacterial performance and excellent comprehensive performance.

2. The method has simple preparation process and is convenient for preparing the emulsion pump head.

Detailed Description

The present application will be described in further detail with reference to examples.

Preparation of composite antibacterial agent

Preparation example 1

The composite antibacterial agent comprises the following preparation steps:

weighing 150L of ethanol, placing the ethanol in a container a, adding 2kg of silane coupling agent, continuously stirring in the adding process, adding 80kg of zinc oxide after the adding is finished, and uniformly stirring to obtain a material a;

placing the material a in a high-speed dispersion machine, mixing for 10min at the speed of 1000r/min, centrifuging to obtain a precipitate, and drying the precipitate in an oven to obtain the modified nano zinc oxide;

weighing 200L of ethanol, placing the ethanol in a container b, placing the prepared modified nano zinc oxide in the ethanol, and carrying out ultrasonic treatment for 20min to obtain a material b;

adding 3kg of sodium pentachlorophenate into the material b, uniformly stirring the sodium pentachlorophenate in an ethanol system, heating the ethanol to 50 ℃, and stirring for reaction for 5 hours to obtain a material c;

and (3) filtering the material c, weighing the solid, washing with ethanol, placing in an oven after washing, controlling the temperature to be 50 ℃, and drying to obtain the composite antibacterial agent.

Preparation example 2

The composite antibacterial agent comprises the following preparation steps:

weighing 150L of ethanol, placing the ethanol in a container a, adding 2kg of silane coupling agent, continuously stirring in the adding process, adding 80kg of zinc oxide after the adding is finished, and uniformly stirring to obtain a material a;

placing the material a in a high-speed dispersion machine, mixing for 20min at the speed of 1000r/min, centrifuging to obtain a precipitate, and drying the precipitate in an oven to obtain the modified nano zinc oxide;

weighing 200L of ethanol, placing the ethanol in a container b, placing the prepared modified nano zinc oxide in the ethanol, and performing ultrasonic treatment for 40min to obtain a material b;

adding 3kg of sodium pentachlorophenate into the material b, uniformly stirring the sodium pentachlorophenate in an ethanol system, heating the ethanol to 55 ℃, and reacting for 4 hours under stirring to obtain a material c;

and (3) filtering the material c, weighing the solid, washing with ethanol, placing in an oven after washing, controlling the temperature to be 50 ℃, and drying to obtain the composite antibacterial agent.

Preparation example 3

The composite antibacterial agent comprises the following preparation steps:

weighing 150L of ethanol, placing the ethanol in a container a, adding 2kg of silane coupling agent, continuously stirring in the adding process, adding 80kg of zinc oxide after the adding is finished, and uniformly stirring to obtain a material a;

placing the material a in a high-speed dispersion machine, mixing for 30min at the speed of 1000r/min, centrifuging to obtain precipitate, and drying the precipitate in an oven to obtain modified nano zinc oxide;

weighing 200L of ethanol, placing the ethanol in a container b, placing the prepared modified nano zinc oxide in the ethanol, and carrying out ultrasonic treatment for 60min to obtain a material b;

adding 3kg of sodium pentachlorophenate into the material b, uniformly stirring the sodium pentachlorophenate in an ethanol system, heating the ethanol to 60 ℃, and stirring for reacting for 3 hours to obtain a material c;

and (3) filtering the material c, weighing the solid, washing with ethanol, placing in an oven after washing, controlling the temperature to be 50 ℃, and drying to obtain the composite antibacterial agent.

Preparation example 4

The composite antibacterial agent comprises the following preparation steps:

weighing 150L of ethanol, placing the ethanol in a container a, adding 3.5kg of silane coupling agent, continuously stirring in the adding process, adding 100kg of zinc oxide after the adding is finished, and uniformly stirring to obtain a material a;

placing the material a in a high-speed dispersion machine, mixing for 20min at the speed of 1000r/min, centrifuging to obtain a precipitate, and drying the precipitate in an oven to obtain the modified nano zinc oxide;

weighing 200L of ethanol, placing the ethanol in a container b, placing the prepared modified nano zinc oxide in the ethanol, and performing ultrasonic treatment for 40min to obtain a material b;

adding 4kg of sodium pentachlorophenate into the material b, uniformly stirring the sodium pentachlorophenate in an ethanol system, heating the ethanol to 55 ℃, and stirring for reacting for 4 hours to obtain a material c;

and (3) filtering the material c, weighing the solid, washing with ethanol, placing in an oven after washing, controlling the temperature to be 50 ℃, and drying to obtain the composite antibacterial agent.

Preparation example 5

The composite antibacterial agent comprises the following preparation steps:

weighing 150L of ethanol, placing the ethanol in a container a, adding 5kg of silane coupling agent, continuously stirring in the adding process, adding 120kg of zinc oxide after the adding is finished, and uniformly stirring to obtain a material a;

placing the material a in a high-speed dispersion machine, mixing for 20min at the speed of 1000r/min, centrifuging to obtain a precipitate, and drying the precipitate in an oven to obtain the modified nano zinc oxide;

weighing 200L of ethanol, placing the ethanol in a container b, placing the prepared modified nano zinc oxide in the ethanol, and performing ultrasonic treatment for 40min to obtain a material b;

adding 5kg of sodium pentachlorophenate into the material b, uniformly stirring the sodium pentachlorophenate in an ethanol system, heating the ethanol to 55 ℃, and reacting for 4 hours under stirring to obtain a material c;

and (3) filtering the material c, weighing the solid, washing with ethanol, placing in an oven after washing, controlling the temperature to be 50 ℃, and drying to obtain the composite antibacterial agent.

Examples

Example 1

An emulsion pump head, comprising the following preparation steps;

weighing 80kg of polypropylene resin, 1kg of antioxidant, 1kg of composite antibacterial agent prepared in preparation example 1, 0.5kg of plasticizer, 0.1kg of lubricant and 1kg of stabilizer, and uniformly mixing to obtain a material d;

placing the material d in a double-screw extruder, heating to 180 ℃, melting, extruding, granulating and cooling to obtain a material e;

placing the material e into an injection molding machine, heating the material e to 170 ℃, and injecting the material e into a mold to obtain an emulsion pump head;

wherein the plasticizer is dioctyl phthalate.

Example 2

An emulsion pump head, comprising the following preparation steps;

weighing 80kg of polypropylene resin, 1kg of antioxidant, 1kg of composite antibacterial agent prepared in preparation example 1, 0.5kg of plasticizer, 0.1kg of lubricant and 1kg of stabilizer, and uniformly mixing to obtain a material d;

placing the material d in a double-screw extruder, heating to 190 ℃, melting, extruding, granulating and cooling to obtain a material e;

placing the material e into an injection molding machine, heating the temperature to 180 ℃, and injecting the material e into a mold to obtain an emulsion pump head;

wherein the plasticizer is dibutyl phthalate.

Example 3

An emulsion pump head, comprising the following preparation steps;

weighing 80kg of polypropylene resin, 1kg of antioxidant, 1kg of composite antibacterial agent prepared in preparation example 1, 0.5kg of plasticizer, 0.1kg of lubricant and 1kg of stabilizer, and uniformly mixing to obtain a material d;

placing the material d in a double-screw extruder, heating to 200 ℃, melting, extruding, granulating and cooling to obtain a material e;

placing the material e into an injection molding machine, heating the temperature to 190 ℃, and injecting the material e into a mold to obtain an emulsion pump head;

wherein the plasticizer is diethyl phthalate.

Example 4

An emulsion pump head, comprising the following preparation steps;

weighing 85kg of polypropylene resin, 1.5kg of antioxidant, 2kg of the composite antibacterial agent prepared in preparation example 1, 1kg of plasticizer, 0.2kg of lubricant and 1.5kg of stabilizer, and uniformly mixing to obtain a material d;

placing the material d in a double-screw extruder, heating to 190 ℃, melting, extruding, granulating and cooling to obtain a material e;

placing the material e into an injection molding machine, heating the temperature to 180 ℃, and injecting the material e into a mold to obtain an emulsion pump head;

wherein the plasticizer is dioctyl phthalate and dibutyl phthalate.

Example 5

An emulsion pump head, comprising the following preparation steps;

weighing 90kg of polypropylene resin, 2kg of antioxidant, 3kg of the composite antibacterial agent prepared in preparation example 1, 1.3kg of plasticizer, 0.3kg of lubricant and 2kg of stabilizer, and uniformly mixing to obtain a material d;

placing the material d in a double-screw extruder, heating to 190 ℃, melting, extruding, granulating and cooling to obtain a material e;

and (3) placing the material e into an injection molding machine, heating to 180 ℃, and injecting the material e into a mold to obtain the emulsion pump head.

Example 6

An emulsion pump head, comprising the following preparation steps;

weighing 95kg of polypropylene resin, 2.5kg of antioxidant, 4kg of the composite antibacterial agent prepared in preparation example 1, 1.5kg of plasticizer, 0.4kg of lubricant and 2.5kg of stabilizer, and uniformly mixing to obtain a material d;

placing the material d in a double-screw extruder, heating to 190 ℃, melting, extruding, granulating and cooling to obtain a material e;

and (3) placing the material e into an injection molding machine, heating to 180 ℃, and injecting the material e into a mold to obtain the emulsion pump head.

Example 7

An emulsion pump head, comprising the following preparation steps;

weighing 100kg of polypropylene resin, 3kg of antioxidant, 5kg of the composite antibacterial agent prepared in preparation example 1, 2kg of plasticizer, 0.5kg of lubricant and 3kg of stabilizer, and uniformly mixing to obtain a material d;

placing the material d in a double-screw extruder, heating to 190 ℃, melting, extruding, granulating and cooling to obtain a material e;

and (3) placing the material e into an injection molding machine, heating to 180 ℃, and injecting the material e into a mold to obtain the emulsion pump head.

Examples 8 to 11

Examples 8 to 11 are different from the examples in that the composite antibacterial agent prepared in preparation example 1 was replaced with the same amount of the composite antibacterial agent prepared in preparation examples 2 to 5.

Comparative example

Comparative example 1

Comparative example 1 differs from example 1 in that: the emulsion pump head prepared by using the same amount of zinc oxide to replace the composite antibacterial agent.

Comparative example 2

Comparative example 1 differs from example 1 in that: and replacing the composite antibacterial agent with the same amount of sodium pentachlorophenate to prepare the emulsion pump head.

Performance test

The antibacterial performance of the prepared plastic is detected by adopting a GB/T31402-2015 plastic surface antibacterial performance test method;

the tensile property of the prepared plastic is detected by measuring the tensile property of the plastic in GB/T1040.2-2006;

the mechanical impact property of the plastic is detected by measuring the bending property of the plastic in GB/T9341-2008.

TABLE 1 basic Performance test of emulsion Pump heads prepared in examples 1-11 and comparative examples 1-2

As can be seen by combining examples 1 to 11 and comparative examples 1 to 2 and by combining table 1, the overall performance of the emulsion pump heads prepared in examples 1 to 11 is superior to that of the pump heads prepared in comparative examples 1 to 2, especially the antibacterial performance of the pump heads prepared in comparative examples 1 to 2 with the addition of a single antibacterial agent is significantly superior, and the tensile strength and the impact strength of the plastic pump heads prepared in examples 1 to 11 are not much different from those of the plastic pump heads prepared in comparative examples 1 to 2;

compared with the comparative examples 1-3, the plastic pump head prepared by the preparation process of the example 2 has better antibacterial effect under the same formula;

the plastic pump head prepared in example 7 has better antibacterial performance under the same preparation process conditions as those obtained in comparative example 2 and examples 4 to 7;

comparative example 5 and examples 8-11 gave the best antimicrobial performance of the plastic pump head prepared in example 9 under the same process conditions and the same formulation.

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.

Claims (9)

1. The formula of the emulsion pump head is characterized by comprising the following raw materials in parts by weight:

80-100 parts of polypropylene resin;

1-3 parts of an antioxidant;

1-5 parts of a composite antibacterial agent;

0.5-2 parts of a plasticizer;

0.1-0.5 part of lubricant;

1-3 parts of a stabilizer;

the compound antibacterial agent is prepared by coating a silane coupling agent on the surface of zinc oxide and then grafting sodium pentachlorophenate.

2. A formulation for an emulsion pump head as claimed in claim 1, wherein: the composition is prepared from the following raw materials in parts by weight:

85-95 parts of polypropylene resin;

1.5-2.5 parts of antioxidant;

2-4 parts of a composite antibacterial agent;

1-1.5 parts of a plasticizer;

0.2-0.4 part of lubricant;

1.5-2.5 parts of a stabilizer.

3. A formulation for an emulsion pump head as claimed in claim 1, wherein: the composite antibacterial agent is prepared from the following raw materials in parts by weight:

2-5 parts of a silane coupling agent;

80-120 parts of zinc oxide;

3-5 parts of sodium pentachlorophenate.

4. A formulation for an emulsion pump head as claimed in claim 1, wherein: the composite antibacterial agent comprises the following preparation steps:

putting a silane coupling agent into ethanol, adding zinc oxide into the ethanol, and uniformly stirring to obtain a material a;

mixing the material a for 10-30min, centrifuging, precipitating, and drying to obtain modified nano zinc oxide;

placing the modified nano zinc oxide in ethanol, and carrying out ultrasonic treatment for 20-60min to obtain a material b;

adding sodium pentachlorophenate into the material b, uniformly stirring, heating to 50-60 ℃, and stirring for reaction for 3-5h to obtain a material c;

and filtering, washing and drying the material c to obtain the composite antibacterial agent.

5. A formulation for an emulsion pump head as claimed in claim 1, wherein: the antioxidant comprises pit oxidizer 1010.

6. A formulation for an emulsion pump head as claimed in claim 1, wherein: the plasticizer is one or more of dioctyl phthalate, dibutyl phthalate or diethyl phthalate.

7. A formulation for an emulsion pump head as claimed in claim 1, wherein: the lubricant comprises calcium stearate.

8. A formulation for an emulsion pump head as claimed in claim 1, wherein: the stabilizer comprises butyltin mercaptide.

9. A method of making an emulsion pump head as recited in claims 1-8, wherein: the preparation method comprises the following preparation steps:

uniformly mixing polypropylene resin, an antioxidant, a composite antibacterial agent, a plasticizer, a lubricant and a stabilizer to obtain a material d;

heating the material d to 180-200 ℃, melting, extruding and granulating to obtain a material e;

and heating the material e to 170-190 ℃, and performing injection molding to obtain the emulsion pump head.