CN105368069A - Engineering high performance plastic - Google Patents

Abstract

The invention discloses an engineering high performance plastic, which comprises the following raw materials by weight: 18-25 parts of polylactic acid, 7-19 parts of short asbestos fiber, 20-28 parts of fluorosilicone rubber, 8-15 parts of polyester fiber, 2-5 parts of nano zirconium dioxide, 15-28 parts of nanometer magnesium hydroxide, 8-15 parts of lead octoate and 25-35 parts of titanium magnesium alloy powder. The present invention provides an engineering high performance plastic with excellent strength and wear-resistance, and adapts to the needs of current society.

Description

Engineering high performance plastics

Technical field

The present invention relates to plastics arts, especially, relate to a kind of engineering high performance 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.

However, existing engineering plastics still can not meet all areas to its requirement, thus, need to study one or more intensity and the more excellent engineering plastics of wear resisting property.

Summary of the invention

The object of the invention is to provide a kind of engineering high performance plastics, to solve the poor problem of intensity and wear resisting property in prior art.

For achieving the above object, the invention provides a kind of engineering high performance plastics, wherein, be made up of the raw material of following weight part:

Poly(lactic acid) 18 ~ 25 parts;

Short fibrous magnesium silicate 7 ~ 19 parts;

Trifluoropropyl siloxane 20 ~ 28 parts;

8 ~ 15 parts, trevira;

Nano zirconium dioxide 2 ~ 5 parts;

Nanometric magnesium hydroxide 15 ~ 28 parts;

Lead octoate 36 8 ~ 15 parts; And

25 ~ 35 parts, titanium magnesium alloy powder.

Further, the invention provides a kind of engineering high performance plastics, wherein, be made up of the raw material of following weight part:

Poly(lactic acid) 18 parts; Short fibrous magnesium silicate 9 parts; Trifluoropropyl siloxane 28 parts; Trevira 8 parts of parts; Nano zirconium dioxide 3 parts; Nanometric magnesium hydroxide 18 parts; Lead octoate 36 13 parts; And 30 parts, titanium magnesium alloy powder.

Further, the invention provides a kind of engineering high performance plastics, wherein, be made up of the raw material of following weight part:

Poly(lactic acid) 25 parts; Short fibrous magnesium silicate 19 parts; Trifluoropropyl siloxane 28 parts; 15 parts, trevira; Nano zirconium dioxide 5 parts; Nanometric magnesium hydroxide 28 parts; Lead octoate 36 15 parts; And 30 parts, titanium magnesium alloy powder.

The present invention has following beneficial effect: the invention provides a kind of engineering high performance plastics, intensity and wear resisting property more excellent, adapted to the demand of society now.

Embodiment

A kind of engineering high performance plastics that this preferred embodiment provides, its specific implementation process is as follows:

The invention provides a kind of engineering high performance plastics, wherein, be made up of the raw material of following weight part:

Poly(lactic acid) 18 ~ 25 parts;

Short fibrous magnesium silicate 7 ~ 19 parts;

Trifluoropropyl siloxane 20 ~ 28 parts;

8 ~ 15 parts, trevira;

Nano zirconium dioxide 2 ~ 5 parts;

Nanometric magnesium hydroxide 15 ~ 28 parts;

Lead octoate 36 8 ~ 15 parts; And

25 ~ 35 parts, titanium magnesium alloy powder.

Embodiment 1:

The invention provides a kind of engineering high performance plastics, wherein, be made up of the raw material of following weight part:

Poly(lactic acid) 18 parts; Short fibrous magnesium silicate 9 parts; Trifluoropropyl siloxane 28 parts; Trevira 8 parts of parts; Nano zirconium dioxide 3 parts; Nanometric magnesium hydroxide 18 parts; Lead octoate 36 13 parts; And 30 parts, titanium magnesium alloy powder.

Embodiment 2:

The invention provides a kind of engineering high performance plastics, wherein, be made up of the raw material of following weight part:

Poly(lactic acid) 25 parts; Short fibrous magnesium silicate 19 parts; Trifluoropropyl siloxane 28 parts; 15 parts, trevira; Nano zirconium dioxide 5 parts; Nanometric magnesium hydroxide 28 parts; Lead octoate 36 15 parts; And 30 parts, titanium magnesium alloy powder.

As can be seen from the above description, the above embodiments of the present invention achieve following technique effect:

The invention provides a kind of engineering high performance plastics, intensity and wear resisting property more excellent, adapted to the demand of society now.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention; For a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (3)

1. an engineering high performance plastics, is characterized in that, is made up of the raw material of following weight part:

Poly(lactic acid) 18 ~ 25 parts;

Short fibrous magnesium silicate 7 ~ 19 parts;

Trifluoropropyl siloxane 20 ~ 28 parts;

8 ~ 15 parts, trevira;

Nano zirconium dioxide 2 ~ 5 parts;

Nanometric magnesium hydroxide 15 ~ 28 parts;

Lead octoate 36 8 ~ 15 parts; And

25 ~ 35 parts, titanium magnesium alloy powder.

2. engineering high performance plastics according to claim 1, is characterized in that, is made up of the raw material of following weight part:

Poly(lactic acid) 18 parts; Short fibrous magnesium silicate 9 parts; Trifluoropropyl siloxane 28 parts; Trevira 8 parts of parts; Nano zirconium dioxide 3 parts; Nanometric magnesium hydroxide 18 parts; Lead octoate 36 13 parts; And 30 parts, titanium magnesium alloy powder.

3. engineering high performance plastics according to claim 1, is characterized in that, is made up of the raw material of following weight part:

Poly(lactic acid) 25 parts; Short fibrous magnesium silicate 19 parts; Trifluoropropyl siloxane 28 parts; 15 parts, trevira; Nano zirconium dioxide 5 parts; Nanometric magnesium hydroxide 28 parts; Lead octoate 36 15 parts; And 30 parts, titanium magnesium alloy powder.