CN102372919A - Wear resistant nylon 66 nanocomposite - Google Patents

Abstract

The invention belongs to the field of the macromolecular nanocomposite, in particular to a wear resistant nylon 66 nanocomposite. The nanocomposite is characterized by comprising the following components in parts by weight: 98-100 parts of nylon 66, 0.05-1 part of nano-Si3N4, 0.1-0.4 part of antioxidant 1010 and 0.1-0.4 part of antioxidant 168. Therefore, the wear resistant nylon 66 nanocomposite has the advantages of low dosage of the wear-resisting agent, low density, rich material color and much better mechanical properties.

Description

A kind of wear resistant nylon 66 nano composite materials

Technical field: the invention belongs to the high molecule nano composite material field, be specifically related to a kind of wear resistant nylon 66 nano composite materials.

Background technology: at present; The common used material that is used for nylon 66 wear-resisting modifications mainly adopts graphite, molybdenumdisulphide and tetrafluoroethylene, when the addition of three kinds of materials is bigger, and the one, can cause matrix material viscosity and density bigger; The 2nd, the cohesiveness between meeting influence and nylon 66 matrixes; The 3rd, the mechanical property of matrix material is also had remarkably influenced, and the color of graphite and molybdenumdisulphide is black, more single with the nylon 66 composite material color of its modification.

Summary of the invention: the purpose of this invention is to provide wear resistant nylon 66 nano composite materials that a kind of anti-wear agent addition is few, density is little, material color is abundant, mechanical property is significantly improved.

Technical scheme of the present invention is: a kind of wear resistant nylon 66 nano composite materials is characterized in that being made up of by weight following component: nylon 66 98-100, nano-silicon nitride (Si ₃N ₄) 0.05-1, antioxidant 1010 0.1-0.4, oxidation inhibitor 168 0.1-0.4.

Manufacturing technology steps is: handle the nano silicon nitride silico-organic earlier (1): measure the 100ml silane resin acceptor kh-550 and add in the beaker; Magnetic agitation; Then the 1g nano-silicon nitride is slowly joined in the silane resin acceptor kh-550, high-speed stirring to mixture becomes suspension-s;

(2) with the nano-silicon nitride (Si of nylon 66 98-100, above-mentioned processing ₃N ₄) 0.05-1, antioxidant 1010 0.1-0.4, oxidation inhibitor 168 0.1-0.4 mix about 3min in high-speed mixer, extrude through twin screw extruder then, granulation, packaging final prod gets final product; Temperature in the above-mentioned said double-screw extruding machine barrel is: 240～250 ℃ in a district, and 250～260 ℃ in two districts, 250～260 ℃ in three districts, 250～260 ℃ in four districts, 250～260 ℃ in five districts, 250～260 ℃ in six districts, 250 ℃ of head temperatures, screw speed are 240rpm.

Its best-of-breed technology scheme is: it is characterized in that being made up of by weight following component: nylon 6699, nano-silicon nitride (Si ₃N ₄) 0.075, antioxidant 1010 0.25, oxidation inhibitor 168 0.25.

Manufacturing technology steps is: handle the nano silicon nitride silico-organic earlier (1): measure the 100ml silane resin acceptor kh-550 and add in the beaker; Magnetic agitation; Then the 1g nano-silicon nitride is slowly joined in the silane resin acceptor kh-550, high-speed stirring to mixture becomes suspension-s;

(2) with the nano-silicon nitride (Si of nylon 66 99, above-mentioned processing ₃N ₄) 0.075, antioxidant 1010 0.25, oxidation inhibitor 168 0.25 mix about 3min in high-speed mixer, extrude through twin screw extruder then, granulation, packaging final prod gets final product; Temperature in the above-mentioned said double-screw extruding machine barrel is: 240～250 ℃ in a district, and 250～260 ℃ in two districts, 250～260 ℃ in three districts, 250～260 ℃ in four districts, 250～260 ℃ in five districts, 250～260 ℃ in six districts, 250 ℃ of head temperatures, screw speed are 240rpm.

The invention has the beneficial effects as follows that owing to adopted technique scheme, the nano-silicon nitride that adds in the nylon 66 has improved the crosslinking degree of nylon 66 matrixes as physical point of attachment, makes not easy entanglement of nylon 66 molecular chains, has improved the intensity of matrix material; But also can reduce the frictional force of contact surface, thus can reduce the wearing and tearing of material surface, nano-silicon nitride has improved the percent crystallinity of material as the heterogeneous nucleation agent of nylon 66 matrixes simultaneously, has improved the hardness and the wear resistance of material.

Embodiment: further specify technical scheme of the present invention below in conjunction with specific embodiment.

Embodiment 1: a kind of wear resistant nylon 66 nano composite materials, form by weight by following component: nylon 66 100, nano-silicon nitride (Si ₃N ₄) 0.05, antioxidant 1010 0.4, oxidation inhibitor 168 0.4.

Manufacturing technology steps is: handle the nano silicon nitride silico-organic earlier (1): measure the 100ml silane resin acceptor kh-550 and add in the beaker; Magnetic agitation; Then the 1g nano-silicon nitride is slowly joined in the silane resin acceptor kh-550, high-speed stirring to mixture becomes suspension-s;

(2) with the nano-silicon nitride (Si of nylon 66 100, above-mentioned processing ₃N ₄) 0.05, antioxidant 1010 0.4, oxidation inhibitor 168 0.4 mix about 3min in high-speed mixer, extrude through twin screw extruder then, granulation, packaging final prod gets final product; Temperature in the above-mentioned said double-screw extruding machine barrel is: 240～250 ℃ in a district, and 250～260 ℃ in two districts, 250～260 ℃ in three districts, 250～260 ℃ in four districts, 250～260 ℃ in five districts, 250～260 ℃ in six districts, 250 ℃ of head temperatures, screw speed are 240rpm.

Embodiment 2: a kind of wear resistant nylon 66 nano composite materials, form by weight by following component: nylon 66 98, nano-silicon nitride (Si ₃N ₄) 1, antioxidant 1010 0.1, oxidation inhibitor 168 0.1.

Manufacturing technology steps is: handle the nano silicon nitride silico-organic earlier (1): measure the 100ml silane resin acceptor kh-550 and add in the beaker; Magnetic agitation; Then the 1g nano-silicon nitride is slowly joined in the silane resin acceptor kh-550, high-speed stirring to mixture becomes suspension-s;

(2) with the nano-silicon nitride (Si of nylon 66 98, above-mentioned processing ₃N ₄) 1, antioxidant 1010 0.1, oxidation inhibitor 168 0.1 mix about 3min in high-speed mixer, extrude through twin screw extruder then, granulation, packaging final prod gets final product; Temperature in the above-mentioned said double-screw extruding machine barrel is: 240～250 ℃ in a district, and 250～260 ℃ in two districts, 250～260 ℃ in three districts, 250～260 ℃ in four districts, 250～260 ℃ in five districts, 250～260 ℃ in six districts, 250 ℃ of head temperatures, screw speed are 240rpm.

Embodiment 3: a kind of wear resistant nylon 66 nano composite materials, form by weight by following component: nylon 66 99, nano-silicon nitride (Si ₃N ₄) 0.075, antioxidant 1010 0.25, oxidation inhibitor 168 0.25.

Manufacturing technology steps is: handle the nano silicon nitride silico-organic earlier (1): measure the 100ml silane resin acceptor kh-550 and add in the beaker; Magnetic agitation; Then the 1g nano-silicon nitride is slowly joined in the silane resin acceptor kh-550, high-speed stirring to mixture becomes suspension-s;

(2) with the nano-silicon nitride (Si of nylon 66 99, above-mentioned processing ₃N ₄) 0.075, antioxidant 1010 0.25, oxidation inhibitor 168 0.25 mix about 3min in high-speed mixer, extrude through twin screw extruder then, granulation, packaging final prod gets final product; Temperature in the above-mentioned said double-screw extruding machine barrel is: 240～250 ℃ in a district, and 250～260 ℃ in two districts, 250～260 ℃ in three districts, 250～260 ℃ in four districts, 250～260 ℃ in five districts, 250～260 ℃ in six districts, 250 ℃ of head temperatures, screw speed are 240rpm.

Claims (2)

1. wear resistant nylon 66 nano composite materials is characterized in that being made up of by weight following component: nylon 66 98-100, nano-silicon nitride (Si ₃N ₄) 0.05-1, antioxidant 1010 0.1-0.4, oxidation inhibitor 168 0.1-0.4.

2. by described a kind of wear resistant nylon 66 nano composite materials of claim 1, it is characterized in that forming by weight: nylon 66 99, nano-silicon nitride (Si by following component ₃N ₄) 0.075, antioxidant 1010 0.25, oxidation inhibitor 168 0.25.