CN108410163A

CN108410163A - A kind of high-strength engineering plastic

Info

Publication number: CN108410163A
Application number: CN201810220120.0A
Authority: CN
Inventors: 丁春香
Original assignee: NANTONG RUILONG NEW MATERIAL CO Ltd
Current assignee: NANTONG RUILONG NEW MATERIAL CO Ltd
Priority date: 2018-03-16
Filing date: 2018-03-16
Publication date: 2018-08-17

Abstract

The present invention discloses a kind of high-strength engineering plastic, is prepared by following raw material in parts by weight：0 part~100 parts of polyamide 6,5 parts~12 parts of Noryl, 2 parts~10 parts of silicon rubber, 1 part~5 parts of isocyanates, 2 parts~10 parts of polypropylene fibre, 0.5 part~3 parts of carbon fiber, 1 part~5 parts of titanium dioxide, 0.2 part~3 parts of nano aluminium oxide, 1 part~6 parts of white carbon, 0.5 part~4 parts of accelerating agent, 1 part~5 parts of coupling agent, 0.2 part~3 parts of antioxidant.The high-strength engineering plastic is base material by polyamide, and is added to the substances such as the nano aluminium oxide for having high intensity and wear-resisting property, carbon fiber, and products obtained therefrom intensity is higher, and impact resistance ability and wear-resisting property significantly improve.

Description

A kind of high-strength engineering plastic

Technical field

The present invention relates to the technical field of plastic products, more particularly to a kind of high-strength engineering plastic.

Background technology

Engineering plastics are the plastics of engineering material and replacement metal manufacture element part etc..Engineering plastics have excellent Comprehensive performance, rigidity is big, and creep is small, high mechanical strength, heat-resist, and electrical insulating property is good, can be in harsher chemistry, physical rings It is used for a long time in border, alternative metal is used as structural timber, but expensive, and yield is smaller.With general-purpose plastics phase Than engineering plastics can reach higher requirement in mechanical performance, durability, corrosion resistance, heat resistance etc., and process more Convenient and alternative metal material.Engineering plastics are widely used in electric, automobile, building, office equipment, machinery, boat The industries such as empty space flight, to mould Dai Gang, have become international popular trend to mould Dai Mu, engineering plastics have become world today's plastics work The most fast field of growth rate in industry.Nevertheless, the intensity of existing engineering plastics is still wanted it is impossible to meet all spectra It asks, it is then desired to study the more excellent engineering plastics of one or more kinds of intensity.

Invention content

The object of the present invention is to provide a kind of high-strength engineering plastic, solve one in above-mentioned prior art problem or It is multiple.

A kind of high-strength engineering plastic provided by the invention, is prepared by following raw material in parts by weight：Polyamide 60 Part~100 parts, 5 parts~12 parts of Noryl, 2 parts~10 parts of silicon rubber, 1 part~5 parts of isocyanates, 2 parts of polypropylene fibre ~10 parts, 0.5 part~3 parts of carbon fiber, 1 part~5 parts of titanium dioxide, 0.2 part~3 parts of nano aluminium oxide, 1 part~6 parts of white carbon, rush Into 0.5 part~4 parts of agent, 1 part~5 parts of coupling agent, 0.2 part~3 parts of antioxidant.

A kind of high-strength engineering plastic, is prepared by following raw material in parts by weight：80 parts of polyamide, Noryl 8 parts, silicon rubber 8,3 parts of isocyanates, 5 parts of polypropylene fibre, 2 parts of carbon fiber, 4 parts of titanium dioxide, 1 part of nano aluminium oxide, hard charcoal Black 5 parts, 2 parts of accelerating agent, 3 parts of coupling agent, 1 part of antioxidant.

In some embodiments, the grain size of nano aluminium oxide is 40 nanometers~60 nanometers.

In some embodiments, accelerating agent is triethylene diamine or triethanolamine.

In some embodiments, coupling agent is N- (mono- aminoethyls of β)-γ-aminopropyls front three (second) oxysilane.

In some embodiments, antioxidant 2,6- DI-tert-butylphenol compounds.

In some embodiments, the preparation method of titanium dioxide includes the following steps：

S1, by TiO₂·nH₂Both O and KOH molar ratio are 0.43, and suitable water is added, is ground, then in Muffle 2h is kept the temperature after being warming up to 880 DEG C in stove, slow cooling to room temperature obtains interphase K₆Ti₂O₇；

S2 and then by scattered intermediate product K₆Ti₂O₇It puts into a small amount of water, places 1-2 days, then by gained It is stirred in hydrated product input suitable quantity of water, the hydrochloric acid of 0.5mol/L is constantly added dropwise, the pH value that solution is controlled with acidometer is 2.0；

S3, intermediate product is filtered out after stable system reaches balance, is washed with water to neutral and drying to constant weight and is produced Then object metatitanic acid sinters to 1200 DEG C in Muffle furnace with the speed of 10 DEG C of min-1, keep the temperature 2h, and slow cooling to room temperature obtains institute State titanium dioxide.

Advantageous effect：The high-strength engineering plastic of the present invention is base material by polyamide, and is added to and has high intensity and resistance to The substances such as nano aluminium oxide, the carbon fiber of performance are ground, products obtained therefrom intensity is higher, and impact resistance ability and wear-resisting property significantly carry It is high.

Specific implementation mode

The present invention is described in more detail below by embodiment.

Case study on implementation 1：

A kind of high-strength engineering plastic, is prepared by following raw material in parts by weight：100 parts of polyamide, modified polyphenyl 12 parts of ether, 10 parts of silicon rubber, 5 parts of isocyanates, 10 parts of polypropylene fibre, 3 parts of carbon fiber, 5 parts of titanium dioxide, nano aluminium oxide 3 Part, 6 parts of white carbon, 4 parts of accelerating agent, 5 parts of coupling agent, 3 parts of antioxidant.

Case study on implementation 2：

A kind of high-strength engineering plastic, is prepared by following raw material in parts by weight：0 part of polyamide 6, Noryl 5 parts, 2 parts of silicon rubber, 1 part of isocyanates, 2 parts of polypropylene fibre, 0.5 part of carbon fiber, 1 part of titanium dioxide, nano aluminium oxide 0.2 Part, 1 part of white carbon, 0.5 part of accelerating agent, 1 part of coupling agent, 0.2 part of antioxidant.

Case study on implementation 3：

The high-strength engineering plastic of the embodiment of the present invention is base material by polyamide, and is added to and has high intensity and wearability The substances such as nano aluminium oxide, the carbon fiber of energy, products obtained therefrom intensity is higher, and impact resistance ability and wear-resisting property significantly improve.

Presented above is only the preferred embodiment of the present invention, it is noted that those skilled in the art, not Under the premise of being detached from the invention design, various modifications and improvements can be made, these also should be regarded as the protection of the present invention Within the scope of.

Claims

1. a kind of high-strength engineering plastic, which is characterized in that be prepared by following raw material in parts by weight：0 part of polyamide 6~ 100 parts, 5 parts~12 parts of Noryl, 2 parts~10 parts of silicon rubber, 1 part~5 parts of isocyanates, polypropylene fibre 2 parts~10 Part, 0.5 part~3 parts of carbon fiber, 1 part~5 parts of titanium dioxide, 0.2 part~3 parts of nano aluminium oxide, 1 part~6 parts of white carbon, accelerating agent 0.5 part~4 parts, 1 part~5 parts of coupling agent, 0.2 part~3 parts of antioxidant.

2. a kind of high-strength engineering plastic according to claim 1, which is characterized in that by the raw material system of following parts by weight It is standby to form：80 parts of polyamide, 8 parts of Noryl, silicon rubber 8,3 parts of isocyanates, 5 parts of polypropylene fibre, 2 parts of carbon fiber, 4 parts of titanium dioxide, 1 part of nano aluminium oxide, 5 parts of white carbon, 2 parts of accelerating agent, 3 parts of coupling agent, 1 part of antioxidant.

3. a kind of high-strength engineering plastic according to claim 1 or 2, which is characterized in that the grain of the nano aluminium oxide Diameter is 40 nanometers~60 nanometers.

4. a kind of high-strength engineering plastic according to claim 1 or 2, which is characterized in that the accelerating agent is triethylene Diamines or triethanolamine.

5. a kind of high-strength engineering plastic according to claim 1 or 2, which is characterized in that the coupling agent is N- (β mono- Aminoethyl)-γ-aminopropyls front three (second) oxysilane.

6. a kind of high-strength engineering plastic according to claim 1 or 2, which is characterized in that the antioxidant is 2,6- DI-tert-butylphenol compounds.

7. a kind of high-strength engineering plastic according to claim 1 or 2, which is characterized in that the preparation side of the titanium dioxide Method includes the following steps：

S1, by TiO₂·nH₂Both O and KOH molar ratio are 0.43, and suitable water is added, is ground, then in Muffle furnace 2h is kept the temperature after being warming up to 880 DEG C, slow cooling to room temperature obtains interphase K₆Ti₂O₇；

S2 and then by scattered intermediate product K₆Ti₂O₇It puts into a small amount of water, places 1-2 days, then by the hydration of gained It is stirred in product input suitable quantity of water, the hydrochloric acid of 0.5mol/L is constantly added dropwise, the pH value that solution is controlled with acidometer is 2.0；

S3, intermediate product is filtered out after stable system reaches balance, is washed with water to neutral and drying to constant weight and obtains product titanium Then acid sinters to 1200 DEG C in Muffle furnace with the speed of 10 DEG C of min-1, keep the temperature 2h, and slow cooling to room temperature obtains the titanium White powder.