CN104177808A - Halogen-free flame-retardant nanometer carbon fiber reinforced polyphenyl ether alloy material - Google Patents

Abstract

A halogen-free flame-retardant nanometer carbon fiber reinforced polyphenyl ether alloy material belongs to the technical field of polymer materials. The halogen-free flame-retardant nanometer carbon fiber reinforced polyphenyl ether alloy material comprises, by weight, 56-64 parts of polyphenyl ether resin, 11-18 parts of polystyrene resin, 6-13 parts of polyamide resin, 14-22 parts of reinforcing fiber, 4.6-7.8 parts of nanometer carbon fiber, 19-26 parts of phosphate, 0.6-1.2 parts of an anti-ageing agent, and 0.7-1.3 parts of a mold release agent. Test results show that the halogen-free flame-retardant nanometer carbon fiber reinforced polyphenyl ether alloy material has a tensile strength of 78-87MPa, a flexural strength of 168-187MPa, a flexural modulus of 11500-12300MPa, a notch impact strength of 68-85j/m and a flame retardation property of V-0(UL-94-V-0-3.0mm), so the composite material can meet occasions having rigorous requirements on strengths; the use of microencapsulated red phosphorus is avoided, so the safety is guaranteed; and poisonous and harmful gases are not released in combustion, so the composition has excellent environmental protection property.

Description

The polyphenylene oxide alloy material that the carbon nano fiber of halogen-free flameproof strengthens

Technical field

The invention belongs to technical field of polymer materials, be specifically related to a kind of polyphenylene oxide alloy material of carbon nano fiber enhancing of halogen-free flameproof.

Background technology

Polyphenyl ether material has good mechanical property, electric property and resistance toheat, is widely used in the fields such as automobile, building, office automation.Polyphenylene oxide resin itself has certain flame retardant resistance, but in many occasions higher to fire-retardant requirement, flame retardant resistance does not still reach requirement, therefore, and must be to its effective modification.In resin combination of the disclosed a kind of halogen-free flameproof of China Patent Publication No. CN100509938A and preparation method thereof, used microcapsule red phosphorus as fire retardant, although microcapsule red phosphorus inflaming retarding is better, but after long-time, the easy moisture absorption of red phosphorus, can discharge part severe toxicity phosphine gas, human body is worked the mischief.Therefore be necessary further exploration, for this reason, the applicant has made good try, has formed technical scheme described below.

Summary of the invention

Task of the present invention is to provide a kind of helping avoid to use microcapsule red phosphorus and use and ensure safety, be conducive to promote intensity and use and meet the occasion that intensity is had to a harsh requirement and use and be of value to and prevent from discharging toxic and harmful when burning and use the polyphenylene oxide alloy material that the carbon nano fiber of the halogen-free flameproof that ensures Environmental Safety strengthens.

Task of the present invention completes like this, the polyphenylene oxide composite material that a kind of carbon nano fiber of halogen-free flameproof strengthens, and its raw material by following parts by weight forms:

In one embodiment of the invention, described polyphenylene oxide resin is 2,6 dimethyl 1.4 polyphenylene oxide resins of limiting viscosity 0.42 ~ 0.47dl/g.

In another embodiment of the present invention, described polystyrene resin is styrene-butadiene-styrene.

In yet another embodiment of the present invention, described polyamide resin is polyamide 66 resin.

In another embodiment of the present invention, described fortifying fibre is the alkali free glass fibre of length 3mm.

Of the present invention, also have in an embodiment, described carbon nano fiber is that length-to-diameter ratio is 150～180 carbon nano fiber.

More of the present invention and in an embodiment, described phosphoric acid salt is hypo-aluminum orthophosphate.

In of the present invention and then an embodiment, described antiager is β (3,5-di-t-butyl-4-hydroxybenzene) propionic acid octadecanol ester.

Of the present invention again more and in an embodiment, described releasing agent is Zinic stearas.

The polyphenylene oxide alloy material that the carbon nano fiber of halogen-free flameproof provided by the invention strengthens has following performance index after tested: tensile strength 78～87MPa, flexural strength 168～187MPa, modulus in flexure 11500～12300MPa, notched Izod impact strength 68～85j/m, flame retardant resistance V-0 (UL-94-V-0-3.0mm), therefore can meet the harsh occasion of intensity and use; Owing to having avoided use microcapsule red phosphorus, therefore can ensure safety; Owing to can not discharge toxic and harmful when burning, thereby there is the excellent feature of environmental protection.

Embodiment

Embodiment 1:

Embodiment 2:

Embodiment 3:

Embodiment 4:

The polyphenylene oxide alloy material that the carbon nano fiber of the halogen-free flameproof being obtained by above-described embodiment 1 to 4 strengthens has following technique effect after tested:

Test event	Embodiment 1	Embodiment 2	Embodiment 3	Embodiment 4
					Tensile strength MPa	78	80	84	87
Flexural strength MPa	168	174	182	187
					Modulus in flexure MPa	11560	11760	12120	12300
Notched Izod impact strength j/m	68．1	72.7	79.5	84.6
					Flame retardant resistance (UL-94-V-0-3.0mm)	V-0	V-0	V-0	V-0

Claims (9)

1. the polyphenylene oxide composite material that the carbon nano fiber of halogen-free flameproof strengthens, is characterized in that its raw material by following parts by weight forms:

56～64 parts of polyphenylene oxide resins;

11～18 parts of polystyrene resins;

6～13 parts of polyamide resins;

14 ~ 22 parts of fortifying fibres;

4.6 ~ 7.8 parts of carbon nano fibers;

19 ~ 26 parts of phosphoric acid salt;

0.6 ~ 1.2 part of antiager;

0.7 ~ 1.3 part of releasing agent.

2. the polyphenylene oxide composite material that the carbon nano fiber of halogen-free flameproof according to claim 1 strengthens, is characterized in that described polyphenylene oxide resin is 2,6 dimethyl 1.4 polyphenylene oxide resins of limiting viscosity 0.42 ~ 0.47dl/g.

3. the polyphenylene oxide composite material that the carbon nano fiber of halogen-free flameproof according to claim 1 strengthens, is characterized in that described polystyrene resin is styrene-butadiene-styrene.

4. the polyphenylene oxide composite material that the carbon nano fiber of halogen-free flameproof according to claim 1 strengthens, is characterized in that described polyamide resin is polyamide 66 resin.

5. the polyphenylene oxide composite material that the carbon nano fiber of halogen-free flameproof according to claim 1 strengthens, is characterized in that described fortifying fibre is the alkali free glass fibre of length 3mm.

6. the polyphenylene oxide composite material that the carbon nano fiber of halogen-free flameproof according to claim 1 strengthens, is characterized in that described carbon nano fiber is that length-to-diameter ratio is 150～180 carbon nano fiber.

7. the polyphenylene oxide composite material that the carbon nano fiber of halogen-free flameproof according to claim 1 strengthens, is characterized in that described phosphoric acid salt is hypo-aluminum orthophosphate.

8. the polyphenylene oxide composite material that the carbon nano fiber of halogen-free flameproof according to claim 1 strengthens, is characterized in that described antiager is β (3,5-di-t-butyl-4-hydroxybenzene) propionic acid octadecanol ester.

9. the polyphenylene oxide composite material that the carbon nano fiber of halogen-free flameproof according to claim 1 strengthens, is characterized in that described releasing agent is Zinic stearas.