阅读说明：本技术 一种高强度聚丙烯复合材料及其制备方法 (High-strength polypropylene composite material and preparation method thereof ) 是由 石耀琦 魏佳伟 周威 于 2021-09-01 设计创作，主要内容包括：本发明公开了一种高强度聚丙烯复合材料及其制备方法,包括聚丙烯材料、碳纤维材料、环氧树脂、聚酰胺材料、聚四氟乙烯材料与增强材料,所述聚丙烯材料的份额为25-35％,所述碳纤维材料的份额为24-34％,所述环氧树脂的份额为10-20％,所述聚酰胺材料的份额为10-18％,所述聚四氟乙烯材料的份额为8-16％,所述增强材料的份额为8-15％。本发明所述的一种高强度聚丙烯复合材料及其制备方法,设有多种复合材料与增强材料,采用多种材料混合加热搅拌的方式对材料之间进行复合操作,增加材料的使用性能,制备增强材料,加强复合材料的耐用性能,材料使用寿命更长,采用加热搅拌共混的方式,进行制备,流程更简单,加热可控制,便于材料的成型制备。(The invention discloses a high-strength polypropylene composite material and a preparation method thereof, wherein the high-strength polypropylene composite material comprises a polypropylene material, a carbon fiber material, epoxy resin, a polyamide material, a polytetrafluoroethylene material and a reinforcing material, wherein the polypropylene material accounts for 25-35%, the carbon fiber material accounts for 24-34%, the epoxy resin accounts for 10-20%, the polyamide material accounts for 10-18%, the polytetrafluoroethylene material accounts for 8-16%, and the reinforcing material accounts for 8-15%. The high-strength polypropylene composite material and the preparation method thereof provided by the invention are provided with various composite materials and reinforcing materials, the composite operation is carried out between the materials by adopting a mode of mixing, heating and stirring the various materials, the use performance of the materials is increased, the reinforcing materials are prepared, the durability of the composite materials is enhanced, the service life of the materials is longer, the materials are prepared by adopting a mode of heating, stirring and blending, the process is simpler, the heating can be controlled, and the molding preparation of the materials is convenient.)

1. A high-strength carbon fiber polypropylene composite material comprises a polypropylene material, a carbon fiber material, epoxy resin, a polyamide material, a polytetrafluoroethylene material and a reinforcing material, and is characterized in that: the polypropylene material accounts for 25-35%, the carbon fiber material accounts for 24-34%, the epoxy resin accounts for 10-20%, the polyamide material accounts for 10-18%, the polytetrafluoroethylene material accounts for 8-16%, and the reinforcing material accounts for 8-15%.

2. The high strength carbon fiber polypropylene composite material according to claim 1, wherein: the proportion of the polypropylene material is 27%, the proportion of the carbon fiber material is 26%, the proportion of the epoxy resin is 14%, the proportion of the polyamide material is 12%, the proportion of the polytetrafluoroethylene material is 12%, and the proportion of the reinforcing material is 9%.

3. The high strength carbon fiber polypropylene composite material according to claim 1, wherein: the proportion of the polypropylene material is 28%, the proportion of the carbon fiber material is 25%, the proportion of the epoxy resin is 13%, the proportion of the polyamide material is 13%, the proportion of the polytetrafluoroethylene material is 11%, and the proportion of the reinforcing material is 10%.

4. A preparation method of a high-strength carbon fiber polypropylene composite material is characterized by comprising the following steps: the method comprises the following operation steps:

s1: preparation of materials: preparing a certain amount of polypropylene material, carbon fiber material, epoxy resin, polyamide material and polytetrafluoroethylene material, respectively introducing the materials into different containers, wherein the containers are measuring cups with graduated scales, and storing for later use;

s2: preparation of the reinforcing material: preparing a polyphenyl alkene reinforced material, wherein the reinforced material comprises a PVC composite material, a foaming agent, an accelerant, a stabilizer, a compatilizer and a lubricant, the PVC composite material is taken as a base material, and the PVC composite material, the foaming agent, the accelerant, the stabilizer, the compatilizer and the lubricant are proportioned and introduced into a heating blending box for mixing to prepare the polyphenyl alkene reinforced material;

s3: mixing the materials in proportion: adding a polypropylene material, a carbon fiber material, epoxy resin, a polyamide material and a polytetrafluoroethylene material into a heating and stirring box in sequence according to a certain proportion, carrying out melting and stirring operation in the heating and stirring box to fully mix the materials, driving the materials by adopting a servo motor, stirring the materials at a high speed, arranging a heating control module in the heating and stirring box to control the temperature in real time, and mixing the materials into the carbon fiber polypropylene material;

s4: mixing the reinforcing materials: introducing the prepared reinforcing material into the mixed carbon fiber polypropylene material, and simultaneously stirring at a high speed to prepare a high-strength carbon fiber polypropylene composite body;

s5: molding the high-strength carbon fiber polypropylene composite material: and (3) introducing the prepared high-strength carbon fiber polypropylene composite body into a double-screw extruder to carry out heating, extruding and granulating operation, and cooling and shaping after discharging to finish the preparation of the high-strength carbon fiber polypropylene composite material.

5. The preparation method of the high-strength carbon fiber polypropylene composite material according to claim 4, wherein the preparation method comprises the following steps: the proportion of the PVC composite material in the step S2 is 55-70%, the proportion of the lubricant is 5-15%, the proportion of the foaming agent is 6-15%, the proportion of the accelerator is 4-14%, the proportion of the stabilizer is 5-15%, and the proportion of the compatilizer is 5-16%.

6. The method for preparing the high-strength carbon fiber polypropylene composite material according to claim 5, wherein the method comprises the following steps: the PVC composite material comprises 58% of the PVC composite material, 7% of the lubricant, 6% of the foaming agent, 9% of the accelerator, 8% of the stabilizer and 12% of the compatibilizer.

7. The method for preparing the high-strength carbon fiber polypropylene composite material according to claim 5, wherein the method comprises the following steps: the PVC composite material comprises 60% of the PVC composite material, 8% of the lubricant, 8% of the foaming agent, 5% of the accelerator, 9% of the stabilizer and 10% of the compatibilizer.

8. The preparation method of the high-strength carbon fiber polypropylene composite material according to claim 4, wherein the preparation method comprises the following steps: in the step S3, heating and stirring are carried out, wherein the heating temperature is 150-220 ℃, the stirring speed is 2000r/min, and the stirring time is 5-12 min.

Technical Field

The invention relates to the field of composite material production, and particularly relates to a high-strength polypropylene composite material and a preparation method thereof.

Background

High strength carbon fiber polypropylene composite is a high strength thermoplastic material, and polypropylene composite is a thermoplastic material, for the material of crystallization type, is applicable to more fields, has excellent mechanical properties and thermal property, and the shaping is convenient, adopts combined material to mix usually when preparing, strengthens use intensity, and along with the continuous development of science and technology, people also are more and more high to high strength carbon fiber polypropylene composite's manufacturing process requirement.

The existing high-strength carbon fiber polypropylene composite material has certain disadvantages in use, firstly, the preparation process is inconvenient because the proportioning cannot be carried out very conveniently, the preparation process is troublesome, the preparation flow is complex, the use of people is not facilitated, in addition, the composite material cannot be well reinforced and compounded, the service performance of the material is possibly poor, and certain adverse effects are brought to the use process of people.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a high-strength polypropylene composite material and a preparation method thereof, which adopt a mode of mixing, heating and stirring a plurality of materials to carry out composite operation among the materials, increase the use performance of the materials, prepare a reinforcing material, strengthen the durability of the composite material, prolong the service life of the materials, adopt a mode of heating, stirring and blending to prepare, have simpler flow, controllable heating, facilitate the molding preparation of the materials and effectively solve the problems in the background technology.

(II) technical scheme

In order to achieve the purpose, the invention adopts the technical scheme that: the high-strength carbon fiber polypropylene composite material comprises a polypropylene material, a carbon fiber material, epoxy resin, a polyamide material, a polytetrafluoroethylene material and a reinforcing material, wherein the polypropylene material accounts for 25-35%, the carbon fiber material accounts for 24-34%, the epoxy resin accounts for 10-20%, the polyamide material accounts for 10-18%, the polytetrafluoroethylene material accounts for 8-16%, and the reinforcing material accounts for 8-15%.

As a preferred technical solution, the content of the polypropylene material is 27%, the content of the carbon fiber material is 26%, the content of the epoxy resin is 14%, the content of the polyamide material is 12%, the content of the polytetrafluoroethylene material is 12%, and the content of the reinforcing material is 9%.

As a preferred technical solution, the content of the polypropylene material is 28%, the content of the carbon fiber material is 25%, the content of the epoxy resin is 13%, the content of the polyamide material is 13%, the content of the polytetrafluoroethylene material is 11%, and the content of the reinforcing material is 10%.

A preparation method of a high-strength carbon fiber polypropylene composite material comprises the following operation steps:

s1: preparation of materials: preparing a certain amount of polypropylene material, carbon fiber material, epoxy resin, polyamide material and polytetrafluoroethylene material, respectively introducing the materials into different containers, wherein the containers are measuring cups with graduated scales, and storing for later use;

s2: preparation of the reinforcing material: preparing a polyphenyl alkene reinforced material, wherein the reinforced material comprises a PVC composite material, a foaming agent, an accelerant, a stabilizer, a compatilizer and a lubricant, the PVC composite material is taken as a base material, and the PVC composite material, the foaming agent, the accelerant, the stabilizer, the compatilizer and the lubricant are proportioned and introduced into a heating blending box for mixing to prepare the polyphenyl alkene reinforced material;

s3: mixing the materials in proportion: adding a polypropylene material, a carbon fiber material, epoxy resin, a polyamide material and a polytetrafluoroethylene material into a heating and stirring box in sequence according to a certain proportion, carrying out melting and stirring operation in the heating and stirring box to fully mix the materials, driving the materials by adopting a servo motor, stirring the materials at a high speed, arranging a heating control module in the heating and stirring box to control the temperature in real time, and mixing the materials into the carbon fiber polypropylene material;

s4: mixing the reinforcing materials: introducing the prepared reinforcing material into the mixed carbon fiber polypropylene material, and simultaneously stirring at a high speed to prepare a high-strength carbon fiber polypropylene composite body;

s5: molding the high-strength carbon fiber polypropylene composite material: and (3) introducing the prepared high-strength carbon fiber polypropylene composite body into a double-screw extruder to carry out heating, extruding and granulating operation, and cooling and shaping after discharging to finish the preparation of the high-strength carbon fiber polypropylene composite material.

In a preferred embodiment, the PVC composite material in the S2 step has a proportion of 55-70%, the lubricant has a proportion of 5-15%, the foaming agent has a proportion of 6-15%, the accelerator has a proportion of 4-14%, the stabilizer has a proportion of 5-15%, and the compatibilizer has a proportion of 5-16%.

As a preferred embodiment, the PVC composite has a proportion of 58%, the lubricant has a proportion of 7%, the blowing agent has a proportion of 6%, the accelerator has a proportion of 9%, the stabilizer has a proportion of 8%, and the compatibilizer has a proportion of 12%.

As a preferred embodiment, the PVC composite has a proportion of 60%, the lubricant 8%, the foaming agent 8%, the accelerator 5%, the stabilizer 9% and the compatibilizer 10%.

As a preferable technical scheme, the step S3 is carried out with heating and stirring operation, wherein the heating temperature is 150-220 ℃, the stirring speed is 2000r/min, and the stirring time is 5-12 min.

(III) advantageous effects

Compared with the prior art, the invention provides a high-strength polypropylene composite material and a preparation method thereof, and the high-strength polypropylene composite material has the following beneficial effects: the high-strength polypropylene composite material is provided with a plurality of composite materials and reinforcing materials, the composite operation is carried out between the materials by adopting a mode of mixing, heating and stirring the materials, the use performance of the materials is increased, the reinforcing materials are prepared, the durability of the composite materials is enhanced, the service life of the materials is longer, the materials are prepared by adopting a mode of heating, stirring and blending, the process is simpler, the heating can be controlled, the molding preparation of the materials is convenient, the polyphenylene reinforcing materials are prepared, the reinforcing materials comprise PVC composite materials, foaming agents, accelerating agents, stabilizing agents, compatilizers and lubricating agents, the PVC composite materials are taken as base materials, the PVC composite materials, the foaming agents, the accelerating agents, the stabilizing agents, the compatilizers and the lubricating agents are proportioned and guided into a heating and blending box to be mixed to prepare the polyphenylene reinforcing materials, and the polypropylene materials, the reinforcing materials, the polypropylene, the, Carbon fiber material, epoxy, polyamide material, the inside position that heating agitator tank was added to according to certain proportion in proper order to the polytetrafluoroethylene material, carry out melting stirring operation in the inside of heating agitator tank, make it fully mix, adopt servo motor to drive, high-speed stirring, inside heating control module that sets up, carry out real time control to the temperature, mix into carbon fiber polypropylene material, to the inside leading-in reinforcing material of making of carbon fiber polypropylene material that mixes, carry out high-speed stirring simultaneously, make high strength carbon fiber polypropylene composite body, the shaping of high strength carbon fiber polypropylene composite: the prepared high-strength carbon fiber polypropylene composite material body is guided into the double-screw extruder to be heated and extruded for granulation, the high-strength carbon fiber polypropylene composite material body is cooled and shaped after being discharged, the preparation of the high-strength carbon fiber polypropylene composite material is completed, the whole high-strength carbon fiber polypropylene composite material is simple in structure and convenient to operate, and the using effect is better than that of the traditional mode.

Detailed Description

The first embodiment is as follows:

the high-strength carbon fiber polypropylene composite material comprises 25-35% of polypropylene material, 24-34% of carbon fiber material, 10-20% of epoxy resin, 10-18% of polyamide material, 8-16% of polytetrafluoroethylene material and 8-15% of reinforcing material.

The proportion of polypropylene material is 28%, the proportion of carbon fiber material is 25%, the proportion of epoxy resin is 13%, the proportion of polyamide material is 13%, the proportion of polytetrafluoroethylene material is 11%, and the proportion of reinforcing material is 10%.

A preparation method of a high-strength carbon fiber polypropylene composite material comprises the following operation steps:

s1: preparation of materials: preparing a certain amount of polypropylene material, carbon fiber material, epoxy resin, polyamide material and polytetrafluoroethylene material, respectively introducing into different containers, wherein the containers are measuring cups with graduated scales, and storing for later use;

s2: preparation of the reinforcing material: preparing a polyphenyl alkene reinforced material, wherein the reinforced material comprises a PVC composite material, a foaming agent, an accelerant, a stabilizer, a compatilizer and a lubricant, the PVC composite material is taken as a base material, and the PVC composite material, the foaming agent, the accelerant, the stabilizer, the compatilizer and the lubricant are proportioned and introduced into a heating blending box for mixing to prepare the polyphenyl alkene reinforced material;

s3: mixing the materials in proportion: adding a polypropylene material, a carbon fiber material, epoxy resin, a polyamide material and a polytetrafluoroethylene material into a heating and stirring box in sequence according to a certain proportion, carrying out melting and stirring operation in the heating and stirring box to fully mix the materials, driving the materials by adopting a servo motor, stirring the materials at a high speed, arranging a heating control module in the heating and stirring box to control the temperature in real time, and mixing the materials into the carbon fiber polypropylene material;

s4: mixing the reinforcing materials: introducing the prepared reinforcing material into the mixed carbon fiber polypropylene material, and simultaneously stirring at a high speed to prepare a high-strength carbon fiber polypropylene composite body;

s5: molding the high-strength carbon fiber polypropylene composite material: and (3) introducing the prepared high-strength carbon fiber polypropylene composite body into a double-screw extruder to carry out heating, extruding and granulating operation, and cooling and shaping after discharging to finish the preparation of the high-strength carbon fiber polypropylene composite material.

In the S2 step, the proportion of the PVC composite material is 55-70%, the proportion of the lubricant is 5-15%, the proportion of the foaming agent is 6-15%, the proportion of the accelerator is 4-14%, the proportion of the stabilizer is 5-15%, and the proportion of the compatilizer is 5-16%.

The PVC composite material has a proportion of 60%, the lubricant 8%, the foaming agent 8%, the accelerator 5%, the stabilizer 9% and the compatibilizer 10%.

And step S3, heating and stirring at 160 ℃, stirring at 2000r/min and stirring for 14 min.

Example two:

on the basis of the first embodiment, the high-strength carbon fiber polypropylene composite material comprises a polypropylene material, a carbon fiber material, epoxy resin, a polyamide material, a polytetrafluoroethylene material and a reinforcing material, wherein the polypropylene material accounts for 25-35%, the carbon fiber material accounts for 24-34%, the epoxy resin accounts for 10-20%, the polyamide material accounts for 10-18%, the polytetrafluoroethylene material accounts for 8-16%, and the reinforcing material accounts for 8-15%.

The proportion of polypropylene material is 27%, the proportion of carbon fiber material is 26%, the proportion of epoxy resin is 14%, the proportion of polyamide material is 12%, the proportion of polytetrafluoroethylene material is 12%, and the proportion of reinforcing material is 9%.

A preparation method of a high-strength carbon fiber polypropylene composite material comprises the following operation steps:

s1: preparation of materials: preparing a certain amount of polypropylene material, carbon fiber material, epoxy resin, polyamide material and polytetrafluoroethylene material, respectively introducing into different containers, wherein the containers are measuring cups with graduated scales, and storing for later use;

s2: preparation of the reinforcing material: preparing a polyphenyl alkene reinforced material, wherein the reinforced material comprises a PVC composite material, a foaming agent, an accelerant, a stabilizer, a compatilizer and a lubricant, the PVC composite material is taken as a base material, and the PVC composite material, the foaming agent, the accelerant, the stabilizer, the compatilizer and the lubricant are proportioned and introduced into a heating blending box for mixing to prepare the polyphenyl alkene reinforced material;

s3: mixing the materials in proportion: adding a polypropylene material, a carbon fiber material, epoxy resin, a polyamide material and a polytetrafluoroethylene material into a heating and stirring box in sequence according to a certain proportion, carrying out melting and stirring operation in the heating and stirring box to fully mix the materials, driving the materials by adopting a servo motor, stirring the materials at a high speed, arranging a heating control module in the heating and stirring box to control the temperature in real time, and mixing the materials into the carbon fiber polypropylene material;

s4: mixing the reinforcing materials: introducing the prepared reinforcing material into the mixed carbon fiber polypropylene material, and simultaneously stirring at a high speed to prepare a high-strength carbon fiber polypropylene composite body;

s5: molding the high-strength carbon fiber polypropylene composite material: and (3) introducing the prepared high-strength carbon fiber polypropylene composite body into a double-screw extruder to carry out heating, extruding and granulating operation, and cooling and shaping after discharging to finish the preparation of the high-strength carbon fiber polypropylene composite material.

In the S2 step, the proportion of the PVC composite material is 55-70%, the proportion of the lubricant is 5-15%, the proportion of the foaming agent is 6-15%, the proportion of the accelerator is 4-14%, the proportion of the stabilizer is 5-15%, and the proportion of the compatilizer is 5-16%.

The PVC composite material has a proportion of 58%, the lubricant has a proportion of 7%, the foaming agent has a proportion of 6%, the accelerator has a proportion of 9%, the stabilizer has a proportion of 8%, and the compatibilizer has a proportion of 12%.

And S3, heating and stirring at 190 ℃, at a stirring speed of 2000r/min for 7 min.

Example three:

on the basis of the second embodiment, the high-strength carbon fiber polypropylene composite material comprises 25-35% of polypropylene material, 24-34% of carbon fiber material, 10-20% of epoxy resin, 10-18% of polyamide material, 8-16% of polytetrafluoroethylene material and 8-15% of reinforcing material.

The proportion of polypropylene material is 28%, the proportion of carbon fiber material is 25%, the proportion of epoxy resin is 13%, the proportion of polyamide material is 13%, the proportion of polytetrafluoroethylene material is 11%, and the proportion of reinforcing material is 10%.

A preparation method of a high-strength carbon fiber polypropylene composite material comprises the following operation steps:

s1: preparation of materials: preparing a certain amount of polypropylene material, carbon fiber material, epoxy resin, polyamide material and polytetrafluoroethylene material, respectively introducing into different containers, wherein the containers are measuring cups with graduated scales, and storing for later use;

s2: preparation of the reinforcing material: preparing a polyphenyl alkene reinforced material, wherein the reinforced material comprises a PVC composite material, a foaming agent, an accelerant, a stabilizer, a compatilizer and a lubricant, the PVC composite material is taken as a base material, and the PVC composite material, the foaming agent, the accelerant, the stabilizer, the compatilizer and the lubricant are proportioned and introduced into a heating blending box for mixing to prepare the polyphenyl alkene reinforced material;

s3: mixing the materials in proportion: adding a polypropylene material, a carbon fiber material, epoxy resin, a polyamide material and a polytetrafluoroethylene material into a heating and stirring box in sequence according to a certain proportion, carrying out melting and stirring operation in the heating and stirring box to fully mix the materials, driving the materials by adopting a servo motor, stirring the materials at a high speed, arranging a heating control module in the heating and stirring box to control the temperature in real time, and mixing the materials into the carbon fiber polypropylene material;

s4: mixing the reinforcing materials: introducing the prepared reinforcing material into the mixed carbon fiber polypropylene material, and simultaneously stirring at a high speed to prepare a high-strength carbon fiber polypropylene composite body;

s5: molding the high-strength carbon fiber polypropylene composite material: and (3) introducing the prepared high-strength carbon fiber polypropylene composite body into a double-screw extruder to carry out heating, extruding and granulating operation, and cooling and shaping after discharging to finish the preparation of the high-strength carbon fiber polypropylene composite material.

In the S2 step, the proportion of the PVC composite material is 55-70%, the proportion of the lubricant is 5-15%, the proportion of the foaming agent is 6-15%, the proportion of the accelerator is 4-14%, the proportion of the stabilizer is 5-15%, and the proportion of the compatilizer is 5-16%.

The PVC composite material has a proportion of 58%, the lubricant has a proportion of 7%, the foaming agent has a proportion of 6%, the accelerator has a proportion of 9%, the stabilizer has a proportion of 8%, and the compatibilizer has a proportion of 12%.

And S3, heating and stirring at 200 ℃ for 9min at a stirring speed of 2000 r/min.

Example four:

on the basis of the third embodiment, the high-strength carbon fiber polypropylene composite material comprises 25-35% of polypropylene material, 24-34% of carbon fiber material, 10-20% of epoxy resin, 10-18% of polyamide material, 8-16% of polytetrafluoroethylene material and 8-15% of reinforcing material.

The proportion of polypropylene material is 27%, the proportion of carbon fiber material is 26%, the proportion of epoxy resin is 14%, the proportion of polyamide material is 12%, the proportion of polytetrafluoroethylene material is 12%, and the proportion of reinforcing material is 9%.

A preparation method of a high-strength carbon fiber polypropylene composite material comprises the following operation steps:

s1: preparation of materials: preparing a certain amount of polypropylene material, carbon fiber material, epoxy resin, polyamide material and polytetrafluoroethylene material, respectively introducing into different containers, wherein the containers are measuring cups with graduated scales, and storing for later use;

s2: preparation of the reinforcing material: preparing a polyphenyl alkene reinforced material, wherein the reinforced material comprises a PVC composite material, a foaming agent, an accelerant, a stabilizer, a compatilizer and a lubricant, the PVC composite material is taken as a base material, and the PVC composite material, the foaming agent, the accelerant, the stabilizer, the compatilizer and the lubricant are proportioned and introduced into a heating blending box for mixing to prepare the polyphenyl alkene reinforced material;

s3: mixing the materials in proportion: adding a polypropylene material, a carbon fiber material, epoxy resin, a polyamide material and a polytetrafluoroethylene material into a heating and stirring box in sequence according to a certain proportion, carrying out melting and stirring operation in the heating and stirring box to fully mix the materials, driving the materials by adopting a servo motor, stirring the materials at a high speed, arranging a heating control module in the heating and stirring box to control the temperature in real time, and mixing the materials into the carbon fiber polypropylene material;

s4: mixing the reinforcing materials: introducing the prepared reinforcing material into the mixed carbon fiber polypropylene material, and simultaneously stirring at a high speed to prepare a high-strength carbon fiber polypropylene composite body;

s5: molding the high-strength carbon fiber polypropylene composite material: and (3) introducing the prepared high-strength carbon fiber polypropylene composite body into a double-screw extruder to carry out heating, extruding and granulating operation, and cooling and shaping after discharging to finish the preparation of the high-strength carbon fiber polypropylene composite material.

In the S2 step, the proportion of the PVC composite material is 55-70%, the proportion of the lubricant is 5-15%, the proportion of the foaming agent is 6-15%, the proportion of the accelerator is 4-14%, the proportion of the stabilizer is 5-15%, and the proportion of the compatilizer is 5-16%.

The PVC composite material has a proportion of 60%, the lubricant 8%, the foaming agent 8%, the accelerator 5%, the stabilizer 9% and the compatibilizer 10%.

And S3, heating and stirring at 220 ℃ at a stirring speed of 2000r/min for 12 min.

The working principle is as follows: preparing a certain amount of polypropylene material, carbon fiber material, epoxy resin, polyamide material and polytetrafluoroethylene material, respectively introducing into different containers, wherein the containers are measuring cups with graduated scales, storing for later use, preparing the polyphenylene reinforced material, the reinforced material comprises PVC composite material, foaming agent, accelerant, stabilizer, compatilizer and lubricant, taking the PVC composite material as a base material, proportioning the PVC composite material, the foaming agent, the accelerant, the stabilizer, the compatilizer and the lubricant, introducing into a heating and blending box for mixing to prepare the polyphenylene reinforced material, sequentially adding the polypropylene material, the carbon fiber material, the epoxy resin, the polyamide material and the polytetrafluoroethylene material into the heating and blending box according to a certain proportion, carrying out melting and stirring operation in the heating and blending box to fully mix the materials, adopt servo motor to drive, the high-speed stirring, inside sets up heating control module, carries out real time control to the temperature, mixes into carbon fiber polypropylene material, to the inside leading-in reinforcing material who makes of carbon fiber polypropylene material that mixes, carries out the high-speed stirring simultaneously, makes high strength carbon fiber polypropylene composite, the shaping of high strength carbon fiber polypropylene composite: and (3) introducing the prepared high-strength carbon fiber polypropylene composite body into a double-screw extruder to carry out heating, extruding and granulating operation, and cooling and shaping after discharging to finish the preparation of the high-strength carbon fiber polypropylene composite material.

It is noted that, herein, relational terms such as first and second (a, b, etc.) and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.