CN118085493A - Spraying-free material - Google Patents

Abstract

The invention relates to the technical field of spraying-free materials, and particularly discloses a spraying-free material, which comprises the following plastic raw materials: 50-100 parts; resin raw materials: 20-30 parts; pearl powder: 2-5 parts; metallic pigment: 2-5 parts; dispersing agent: 1-2 parts; wherein: the plastic raw material is ABS, PS, PC, PP engineering plastic particles with filling flame-retardant effect; the pearl powder is of the lriodin series, and lriodin153 or lriodin163 is adopted; the dispersing agent is FF type bis-stearic acid amide, and the invention solves the problem that the traditional injection molding part does not need to be sprayed with paint and can still achieve the effect of highlighting after spraying.

Description

Spraying-free material

Technical Field

The application relates to the technical field of spraying-free materials, and particularly discloses a spraying-free material.

Background

For injection molded parts with the required surface appearance of highlight black, the injection molded parts are obtained by adopting the modes of injection molding and coating, and the method is subjected to two procedures, so that an intermediate stock is established; the emissions from painting are harmful to the environment even after multiple cleanups as required; the coating line facility is also a great input cost;

therefore, the inventor proposes a spraying-free material by utilizing experience obtained by high-gloss injection molding of my department to redesign a die, a process and raw materials, so that the surface effect of an injection molded product reaches the surface effect of shoulder coating.

Disclosure of Invention

The invention aims to solve the problem that the traditional injection molding part can still achieve the effect of highlighting after spraying without spraying paint.

In order to achieve the above object, the basic solution of the present invention provides

A spraying-free material comprises the following raw materials in parts by weight:

The plastic raw materials are as follows: 50-100 parts;

Resin raw materials: 20-30 parts;

pearl powder: 2-5 parts;

Metallic pigment: 2-5 parts;

Dispersing agent: 1-2 parts;

Wherein: the plastic raw material is ABS, PS, PC, PP engineering plastic particles with filling flame-retardant effect;

The pearl powder is of the lriodin series, and lriodin153 or lriodin163 is adopted;

the dispersing agent is FF type bis-stearic acid amide.

The principle and effect of this basic scheme lie in:

1. compared with the prior art, the production equipment is simple, dust, waste water and harmful gas are not generated in the production process, the current environmental protection trend is met, the scrapped material can be recycled, the production cost is low, the production efficiency is high, the process is simple, the pollution is small, the appearance has a metal effect, and the paint spraying-free effect can be realized.

Further, plastic raw materials: 50 parts;

Resin raw materials: 20 parts;

Pearl powder: 2 parts;

metallic pigment: 2 parts;

dispersing agent: 1 part;

Wherein: the plastic raw material is ABS, PS, PC, PP engineering plastic particles with filling flame-retardant effect;

The pearl powder is of the lriodin series, and lriodin153 or lriodin163 is adopted;

the dispersing agent is FF type bis-stearic acid amide.

Further, plastic raw materials: 100 parts;

Resin raw materials: 30 parts;

pearl powder: 5 parts;

Metallic pigment: 5 parts;

Dispersing agent: 2 parts;

Wherein: the plastic raw material is ABS, PS, PC, PP engineering plastic particles with filling flame-retardant effect;

The pearl powder is of the lriodin series, and lriodin153 or lriodin163 is adopted;

the dispersing agent is FF type bis-stearic acid amide.

Further, plastic raw materials: 75 parts;

Resin raw materials: 25 parts;

pearl powder: 4 parts;

Metallic pigment: 4 parts;

Dispersing agent: 1.5 parts;

Wherein: the plastic raw material is ABS, PS, PC, PP engineering plastic particles with filling flame-retardant effect;

The pearl powder is of the lriodin series, and lriodin153 or lriodin163 is adopted;

the dispersing agent is FF type bis-stearic acid amide.

The preparation process of the spraying-free material includes the following steps:

S01: preparing raw materials, namely taking the raw materials according to parts by mass, and determining the color of a metal pigment according to the final color of a product, wherein the color of the metal pigment comprises, but is not limited to, a metal color, a matte color, a beaded color and a dazzling color;

s02: filling the determined metal pigment into a cup, adding pearl powder and a dispersing agent, and stirring and mixing;

S03: the resin raw material is put into a plastic oil mixer to melt the resin raw material, the plastic oil mixer is stopped after the resin raw material is thoroughly melted and has no granular feel, the stirring mixture in S02 is put into the plastic oil mixer, and the plastic oil mixer is started again to fully mix the resin raw material with the stirring mixture in S02;

S04: after fully mixing, drying and dewatering the mixture by adopting a vacuum dehumidification dryer until the moisture content is within 0.2% -0.5%;

S05: and (3) injection molding, namely adding the dried mixture into an injection molding machine, heating for injection molding, cooling and demolding to obtain a mold product made of spraying-free plastic.

Further, in the stirring and mixing in step S02, the metallic pigment, the pearl powder and the dispersing agent are both stirred and mixed at a constant temperature, and the temperature is ensured to be able to melt the metallic pigment.

Detailed Description

In order to further describe the technical means and effects adopted for achieving the intended purpose of the present invention, the following detailed description will refer to the specific implementation, structure, characteristics and effects according to the present invention in conjunction with the preferred embodiments.

A spraying-free material comprises the following raw materials in parts by weight:

The plastic raw materials are as follows: 50-100 parts;

Resin raw materials: 20-30 parts;

pearl powder: 2-5 parts;

Metallic pigment: 2-5 parts;

Dispersing agent: 1-2 parts;

Wherein: the plastic raw material is ABS, PS, PC, PP engineering plastic particles with filling flame-retardant effect;

The pearl powder is of the lriodin series, and lriodin153 or lriodin163 is adopted;

the dispersing agent is FF type bis-stearic acid amide.

Specific:

The plastic raw materials are as follows: 50 parts;

Resin raw materials: 20 parts;

Pearl powder: 2 parts;

metallic pigment: 2 parts;

dispersing agent: 1 part;

Wherein: the plastic raw material is ABS, PS, PC, PP engineering plastic particles with filling flame-retardant effect;

The pearl powder is of the lriodin series, and lriodin153 or lriodin163 is adopted;

the dispersing agent is FF type bis-stearic acid amide.

Specific:

The plastic raw materials are as follows: 100 parts;

Resin raw materials: 30 parts;

pearl powder: 5 parts;

Metallic pigment: 5 parts;

Dispersing agent: 2 parts;

Wherein: the plastic raw material is ABS, PS, PC, PP engineering plastic particles with filling flame-retardant effect;

The pearl powder is of the lriodin series, and lriodin153 or lriodin163 is adopted;

the dispersing agent is FF type bis-stearic acid amide.

Specific:

The plastic raw materials are as follows: 75 parts;

Resin raw materials: 25 parts;

pearl powder: 4 parts;

Metallic pigment: 4 parts;

Dispersing agent: 1.5 parts;

Wherein: the plastic raw material is ABS, PS, PC, PP engineering plastic particles with filling flame-retardant effect;

The pearl powder is of the lriodin series, and lriodin153 or lriodin163 is adopted;

the dispersing agent is FF type bis-stearic acid amide.

The specific implementation process comprises the following steps:

also discloses a preparation method of the spraying-free material, which comprises the following steps:

S01: preparing raw materials, namely taking the raw materials according to parts by mass, and determining the color of a metal pigment according to the final color of a product, wherein the color of the metal pigment comprises, but is not limited to, a metal color, a matte color, a beaded color and a dazzling color;

s02: filling the determined metal pigment into a cup, adding pearl powder and a dispersing agent, and stirring and mixing;

S03: the resin raw material is put into a plastic oil mixer to melt the resin raw material, the plastic oil mixer is stopped after the resin raw material is thoroughly melted and has no granular feel, the stirring mixture in S02 is put into the plastic oil mixer, and the plastic oil mixer is started again to fully mix the resin raw material with the stirring mixture in S02;

S04: after fully mixing, drying and dewatering the mixture by adopting a vacuum dehumidification dryer until the moisture content is within 0.2% -0.5%;

S05: and (3) injection molding, namely adding the dried mixture into an injection molding machine, heating for injection molding, cooling and demolding to obtain a mold product made of spraying-free plastic.

Further, in the stirring and mixing in step S02, the metallic pigment, the pearl powder and the dispersing agent are both stirred and mixed at a constant temperature, and the temperature is ensured to be able to melt the metallic pigment.

Compared with the traditional plastic which is colored by paint spraying after being molded, the production process required by the invention is greatly simplified, and the required production equipment and field are less. The plastic used in the invention does not generate dust, waste water and harmful gas in the production process, accords with the current environmental protection trend, and the scrapped material can be recycled. Low production cost, high production efficiency, simple process, little pollution and metallic appearance.

The invention solves the problem that the traditional injection molding part can still achieve the effect of highlighting after spraying without spraying paint.

The present invention is not limited to the above embodiments, but is capable of modification and variation in detail, and other modifications and variations can be made by those skilled in the art without departing from the scope of the present invention.

Claims (6)

1. A spray-free material, characterized by: the raw materials are as follows in parts by weight:

The plastic raw materials are as follows: 50-100 parts;

Resin raw materials: 20-30 parts;

pearl powder: 2-5 parts;

Metallic pigment: 2-5 parts;

Dispersing agent: 1-2 parts;

Wherein: the plastic raw material is ABS, PS, PC, PP engineering plastic particles with filling flame-retardant effect;

The pearl powder is of the lriodin series, and lriodin153 or lriodin163 is adopted;

the dispersing agent is FF type bis-stearic acid amide.

2. The spraying-free material according to claim 1, wherein the raw materials are as follows in parts by weight: the plastic raw materials are as follows: 50 parts;

Resin raw materials: 20 parts;

Pearl powder: 2 parts;

metallic pigment: 2 parts;

dispersing agent: 1 part;

Wherein: the plastic raw material is ABS, PS, PC, PP engineering plastic particles with filling flame-retardant effect;

The pearl powder is of the lriodin series, and lriodin153 or lriodin163 is adopted;

the dispersing agent is FF type bis-stearic acid amide.

3. The spraying-free material according to claim 1, wherein the raw materials are as follows in parts by weight: the plastic raw materials are as follows: 100 parts;

Resin raw materials: 30 parts;

pearl powder: 5 parts;

Metallic pigment: 5 parts;

Dispersing agent: 2 parts;

Wherein: the plastic raw material is ABS, PS, PC, PP engineering plastic particles with filling flame-retardant effect;

The pearl powder is of the lriodin series, and lriodin153 or lriodin163 is adopted;

the dispersing agent is FF type bis-stearic acid amide.

4. The spraying-free material according to claim 1, wherein the raw materials are as follows in parts by weight: the plastic raw materials are as follows: 75 parts;

Resin raw materials: 25 parts;

pearl powder: 4 parts;

Metallic pigment: 4 parts;

Dispersing agent: 1.5 parts;

Wherein: the plastic raw material is ABS, PS, PC, PP engineering plastic particles with filling flame-retardant effect;

The pearl powder is of the lriodin series, and lriodin153 or lriodin163 is adopted;

the dispersing agent is FF type bis-stearic acid amide.

5. The preparation method of the spraying-free material is characterized by comprising the following steps of:

S01: preparing raw materials, namely taking the raw materials according to parts by mass, and determining the color of a metal pigment according to the final color of a product, wherein the color of the metal pigment comprises, but is not limited to, a metal color, a matte color, a beaded color and a dazzling color;

s02: filling the determined metal pigment into a cup, adding pearl powder and a dispersing agent, and stirring and mixing;

S03: the resin raw material is put into a plastic oil mixer to melt the resin raw material, the plastic oil mixer is stopped after the resin raw material is thoroughly melted and has no granular feel, the stirring mixture in S02 is put into the plastic oil mixer, and the plastic oil mixer is started again to fully mix the resin raw material with the stirring mixture in S02;

S04: after fully mixing, drying and dewatering the mixture by adopting a vacuum dehumidification dryer until the moisture content is within 0.2% -0.5%;

S05: and (3) injection molding, namely adding the dried mixture into an injection molding machine, heating for injection molding, cooling and demolding to obtain a mold product made of spraying-free plastic.

6. The spraying-free material according to claim 5, wherein in the step S02 of stirring and mixing, the metallic pigment, the pearl powder and the dispersing agent are both stirred and mixed at a constant temperature, and the temperature is ensured to melt the metallic pigment.