CN104788839A - High abrasion-resistant engineering plastic - Google Patents

Abstract

The invention discloses high abrasion-resistant engineering plastic. The high abrasion-resistant engineering plastic is prepared from the following raw materials in parts by weight: 20-30 parts of polyethylene, 10-40 parts of polyformaldehyde, 25-35 parts of polystyrene, 10-20 parts of polyether-ether-ketone, 5-15 parts of epoxy resin, 1-5 parts of nano titanium dioxide, 1-6 parts of silicon carbide, 0.5-5 parts of graphite, 1-5 parts of carbon black, 2-8 parts of silicone rubber, 0.5-3 parts of mica and 2-6 parts of stearic acid. The abrasion resistance of the high abrasion-resistant engineering plastic is remarkably improved, the abrasion-resistant effect is lasting, the mechanical property is excellent, the tensile strength is greater than 110 MPa, the bending strength is greater than 120 MPa, and the wear rate is smaller than 0.7%.

Description

High abrasion performance engineering plastics

Technical field

The present invention relates to technical field of polymer materials, especially a kind of high abrasion performance engineering plastics.

Background technology

Engineering plastics are engineering materialss and replace metal to manufacture the plastics of element part etc.Engineering plastics have excellent over-all properties, and rigidity is large, and creep is little, and physical strength is high, good heat resistance, electrical insulating property is good, can use for a long time in harsher chemistry, physical environment, alternative metal uses as structural timber, but price is more expensive, and output is less.Compare with general-purpose plastics, engineering plastics can reach higher requirement in mechanical property, weather resistance, erosion resistance, thermotolerance etc., and process more convenient and alternative metallic substance.Engineering plastics are widely used in electric, the industry such as automobile, building, office equipment, machinery, aerospace, to mould Dai Gang, to become international popular trend to mould Dai Muyi, engineering plastics have become the field that in world today's plastics industry, rate of growth is the fastest.

Along with the development of industrial manufacturing level, require that engineering plastics possess more superior wear resisting property, ageing resistance, intensity etc., therefore, need exploitation to have the engineering plastics of high-wear resistance.At present, the main solution improving engineering plastics wear resisting propertys is to play high temperature resistant, wear-resisting effect at the surface-coated tetrafluoroethylene of tumbler.But, along with the prolongation of working time, usually there will be the phenomenon of coating shedding, and then cause equipment operation failure; In addition, apply the method for metal-powder, lubricating oil, carbon dust on the surface of tumbler, although also can play the effect making working-surface wear-resisting, still effect is undesirable.

Summary of the invention

The object of this invention is to provide a kind of high abrasion performance engineering plastics, this high abrasion performance engineering plastics can solve the problem of existing engineering plastics wear resisting property difference.

In order to solve the problem, the technical solution used in the present invention is:

High abrasion performance engineering plastics of the present invention is prepared from by the raw material of following parts by weight: polyethylene 20 parts ~ 30 parts, polyoxymethylene 10 parts ~ 40 parts, polystyrene 25 parts ~ 35 parts, polyether-ether-ketone 10 parts ~ 20 parts, epoxy resin 5 parts ~ 15 parts, nano titanium oxide 1 part ~ 5 parts, 1 part ~ 6 parts, silicon carbide, 0.5 part ~ 5 parts, graphite, carbon black 1 part ~ 5 parts, 2 parts ~ 8 parts, silicon rubber, 0.5 part ~ 3 parts, mica, stearic acid 2 parts ~ 6 parts.

In technique scheme, scheme can also be more specifically: poly relative molecular weight is greater than 3,000,000.

Further, the particle diameter of nano titanium oxide is 30 nanometer ~ 80 nanometers.

Owing to have employed technique scheme, the present invention compared with prior art has following beneficial effect:

Wear-resistant engineering plastic of the present invention by wear-resisting, Shockproof corrosion resistant can be excellent polyethylene and the stronger polyether-ether-ketone of wear resisting property, polyoxymethylene, material based on polystyrene, and add the materials such as epoxy resin, graphite, carbon black, silicon rubber, nano titanium oxide, mica, the performance that prepared engineering plastics are wear-resisting significantly improves, abrasion resistant effect is lasting, good mechanical performance, tensile strength is greater than 110 MPas, and flexural strength is greater than 120 MPas, and wear rate is less than 0.7%.

Embodiment

Below in conjunction with embodiment, the invention will be further described:

Embodiment 1

The present embodiment is prepared from by the raw material of following parts by weight: the polyethylene 20 parts that relative molecular weight is greater than 3,000,000, polyoxymethylene 25 parts, polystyrene 25 parts, polyether-ether-ketone 10 parts, epoxy resin 5 parts, particle diameter is the titanium dioxide 3 parts of 30 nanometers, 1 part, silicon carbide, 0.5 part, graphite, carbon black 1 part, 5 parts, silicon rubber, 0.5 part, mica, stearic acid 2 parts.

Embodiment 2

The present embodiment is prepared from by the raw material of following parts by weight: the polyethylene 25 parts that relative molecular weight is greater than 3,000,000, polyoxymethylene 10 parts, polystyrene 30 parts, polyether-ether-ketone 15 parts, epoxy resin 10 parts, particle diameter is the titanium dioxide 1 part of 50 nanometers, 3 parts, silicon carbide, 3 parts, graphite, carbon black 3 parts, 8 parts, silicon rubber, 1.5 parts, mica, stearic acid 4 parts.

Embodiment 3

The present embodiment is prepared from by the raw material of following parts by weight: the polyethylene 230 parts that relative molecular weight is greater than 3,000,000, polyoxymethylene 40 parts, polystyrene 35 parts, polyether-ether-ketone 20 parts, epoxy resin 15 parts, particle diameter is the titanium dioxide 5 parts of 80 nanometers, 6 parts, silicon carbide, 5 parts, graphite, carbon black 5 parts, 2 parts, silicon rubber, 3 parts, mica, stearic acid 6 parts.

In order to verify the physicochemical property of prepared high abrasion performance engineering plastics, detect the flexural strength of above-described embodiment product, the index such as tensile strength and wear rate respectively, detected result is in table 1:

Table 1 product physicochemical property

As seen from the results in Table 1, engineering plastics tensile strength of the present invention is greater than 110 MPas, and flexural strength is greater than 120 MPas, and wear rate is less than 0.7%, and toughness of products is strong, wear-resistant.

Claims (3)

1. a high abrasion performance engineering plastics, is characterized in that being prepared from by the raw material of following parts by weight: polyethylene 20 parts ~ 30 parts, polyoxymethylene 10 parts ~ 40 parts, polystyrene 25 parts ~ 35 parts, polyether-ether-ketone 10 parts ~ 20 parts, epoxy resin 5 parts ~ 15 parts, nano titanium oxide 1 part ~ 5 parts, 1 part ~ 6 parts, silicon carbide, 0.5 part ~ 5 parts, graphite, carbon black 1 part ~ 5 parts, 2 parts ~ 8 parts, silicon rubber, 0.5 part ~ 3 parts, mica, stearic acid 2 parts ~ 6 parts.

2. high abrasion performance engineering plastics according to claim 1, is characterized in that described poly relative molecular weight is greater than 3,000,000.

3. high abrasion performance engineering plastics according to claim 1, is characterized in that the particle diameter of described nano titanium oxide is 30 nanometer ~ 80 nanometers.