CN101434741A

CN101434741A - Easy-mould high impact resistance regenerative PET/GF material special for automobile inner decoration member

Info

Publication number: CN101434741A
Application number: CNA2008102435036A
Authority: CN
Inventors: 汪家宝; 沈玉海; 吴锡忠; 牛建勋
Original assignee: NANJING JINSHAN AUTOMOBILE ENGINEERING PLASTIC Co Ltd
Current assignee: NANJING JINSHAN AUTOMOBILE ENGINEERING PLASTIC Co Ltd
Priority date: 2008-12-15
Filing date: 2008-12-15
Publication date: 2009-05-20

Abstract

The invention relates to a special high-impact reproduced PET/GF automotive upholstery material that is shaped easily, which comprises the following components according to mass portions: 55 portions to 80 portions of reproduced PET, 15 portions to 35 portions of GF, 5 portions to 10 portions of toughening agents, 1.0 portion to 3.0 portions of antioxidants, 0.2 portion to 0.7 portion of nucleating agents and 0.75 portion of chain extenders. A preparation method thereof comprises the following steps: (1) the reproduced PET goes through drying treatment; (2) after being dried, the reproduced PET is stirred and mixed with the chain extenders, the antioxidants and the nucleating agents to obtain a premix compound I; (3) the premix compound I is extruded into particles with a twin screw extruder under the vacuum condition and the obtained particles are dried; (4) after being dried, the particles are stirred and mixed with the toughening agents; (5) a premix compound II is obtained; and (6) the premix compound II is extruded into particles with a twin screw extruder under the vacuum condition and continuous long glass fibers are added through a glass fiber feeding mouth simultaneously. The PET/GF composite material obtained can be crystallized and shaped fast, has relatively high impact performance, high strength and low cost and is applicable to the production of automotive upholstery.

Description

Easy-formation high impact resistance regenerative PET/GF automobile inner fitting special-purpose material

Technical field

The present invention relates to a kind of easy-formation high impact resistance regenerative PET/GF automobile inner fitting special-purpose material.

Background technology

PET (polyethylene terephthalate) material crystallization rate is low, moulding process technology controlling and process complexity, and the cycle is long, and the degree of crystallinity temperature influence is big, and work range is narrow, and above shortcoming has greatly limited it and has used as engineering plastics.And because PET molecular structure decision, under the situation of suction chance heat, be easy to degrade, cause performances such as its heat, mechanics to descend greatly, this point especially shows on the regenerative PET material, because regenerated PET is through repeatedly processing, the brand-new PET material of various aspects of performance all descends a lot, and particularly impelling strength only has 20～30% of brand-new material.

Few about easy-formation high impact resistance regenerative PET/GF (glass fibre) composite study both at home and abroad at present, the product that is used for automotive upholstery still less.With PET material engineering plastic mainly is to solve its moulding processability and improve impelling strength two aspects.

Mainly be to add chainextender and nucleator aspect the forming property that improves material.Nucleator is many with nanoparticle, but the addition of this kind nucleator is more, the mechanical property of material is had certain influence, and price is higher.Chainextender is based on tetramethylolmethane more efficiently, and this kind chainextender consumption is wayward, and the excessive a little PET that causes easily is crosslinked in a large number, be difficult to extrude, and the damage screw rod.Normally add elastomeric grafts aspect toughness reinforcing, this method can significantly improve the impelling strength of PET.

Comprehensively it seems, the domestic so far matured product that does not still have easy-formation high impact resistance regenerative PET/GF automobile inner fitting special-purpose material, existing technological method processing condition complexity, modified effect especially shaping processability can improve not obvious.

Summary of the invention

The present invention will solve be exactly present regenerative PET/GF composite material forming process-cycle long, crystallization is inhomogeneous, mechanical property is low and existing high impact resistance regenerative PET/GF Composite Preparation exists complex process, inefficient problem provide a kind of easy-formation high impact resistance regenerative PET/GF automobile inner fitting special-purpose material.

Easy-formation high impact resistance regenerative PET of the present invention/GF automobile inner fitting special-purpose material comprises following component:

(1) regenerative PET (polyethylene terephthalate) 55～80 mass parts;

(2) GF (glass fibre) 15～35 mass parts;

(3) toughner 5～10 mass parts;

(4) oxidation inhibitor 1.0～3.0 mass parts;

(5) nucleator 0.2～0.7 mass parts;

(6) chainextender 0.75 mass parts.

Above-mentioned regenerative PET is the pulverizing material of PET goods such as Coke bottle.

Above-mentioned GF is an alkali-free glass fiber.

Above-mentioned oxidation inhibitor is antioxidant 1010, the two mixture with arbitrary proportion of oxidation inhibitor JC-1225.

Above-mentioned nucleator is organic layered silicate.

Above-mentioned chainextender is any one in 2,2 ' dimethylol propionic acid (DMPA), glycerol (glycerine), the polyglycerol acrylate;

Above-mentioned toughner is SEBS-GMA (graft copolymer of hydrogenated styrene-butadiene-styrene multipolymer and glycidyl methacrylate), POE-GMA (graft copolymer of POE and glycidyl methacrylate), EPDM-GMA (graft copolymer of terpolymer EP rubber and glycidyl methacrylate), E-MA-GMA (ethylene-propylene acetoacetic ester-glycidyl methacrylate triblock copolymer), hydroxy silicon oil, the mixture of any one in the polyether silicone oil or more than one arbitrary proportions.

Preparation method of the present invention comprises the steps:

1) regenerative PET is carried out drying treatment, make its water content be lower than 1%;

2) exsiccant regenerative PET and chainextender, oxidation inhibitor, nucleator were mixed under 800～1200 rev/mins rotating speed 3～5 minutes, get premix compound I;

3) with premix compound I through twin screw extruder extruding pelletization under vacuum condition, and with the gained pellet at 90 ℃ of following vacuum-drying 5～6h;

4) exsiccant pellet and toughner were mixed under 300～500 rev/mins rotating speed 2～3 minutes;

5) under 800～1200 rev/mins rotating speed, continued to mix 5～8 minutes, obtain premix compound II;

6) with premix compound II through twin screw extruder extruding pelletization under vacuum condition, simultaneously add the successive long glass fibres at the glass spout.

Above-mentioned steps 1) be at 90 ℃ of following vacuum-drying 5～6h.

The PET/GF matrix material crystalline forming that the present invention obtains is fast, has higher impact resistance, and intensity is big, and cost is low, can be used for the production of automotive interior part.

After testing, adopt easy-formation high impact resistance regenerative PET/GF automobile inner fitting special-purpose material that prescription of the present invention and technology makes can be when 80 ℃ of die temperatures, pressurize is rapid shaping under the condition of 12s cooling time, and the performance of resulting product is as follows with this understanding:

Ash content 15～35%

Izod notched Izod impact strength 100～250J/m

Tensile strength 60～90MPa

Bending strength 70～140MPa

Embodiment

Comparative Examples

Get the raw materials ready by following prescription:

(1) regenerative PET 75 mass parts

(2) GF 25 mass parts

The exsiccant regenerative PET is continuous through twin screw extruder extruding pelletization under vacuum condition, add the successive long glass fibres at the glass spout simultaneously.

Prepared PP Pipe Compound is when 80 ℃ of die temperatures, and pressurize is injection molding under the condition of 12s cooling time, and it is as follows to record the performance of goods with this understanding:

Ash content 24.2%

Izod notched Izod impact strength 21J/m

Tensile strength 80MPa

Bending strength 106MPa

Embodiment 1

Get the raw materials ready by following prescription:

(1) regenerative PET 65 mass parts;

(2) GF 25 mass parts;

(3) POE-GMA/ polyether silicone oil (3:1) 10 mass parts;

(4) 1010/JC-1225 (3:1) 1.0 mass parts;

(5) organic layered silicate 0.5 mass parts;

(6) DMPA 0.75 mass parts.

Exsiccant regenerative PET and DMPA, 1010, organic layered silicate were mixed under 900 rev/mins rotating speed 5 minutes, this Preblend is through twin screw extruder extruding pelletization under vacuum condition, and dry.Exsiccant pellet and POE-GMA/ polyether silicone oil mixture were mixed under 300 rev/mins rotating speed 3 minutes, under 1200 rev/mins rotating speed, continued to mix 7 minutes, through twin screw extruder extruding pelletization under vacuum condition, add the successive long glass fibres at the glass spout simultaneously.

Ash content 23.3%

Izod notched Izod impact strength 153J/m

Tensile strength 65MPa

Bending strength 72MPa

Embodiment 2

Get the raw materials ready by following prescription:

(1) regenerative PET 65 mass parts;

(2) GF 25 mass parts;

(3) SEBS-GMA/ hydroxy silicon oil (3:1) 10 mass parts;

(4) 1010/JC-1225 (1:1) 2.0 mass parts;

(5) organic layered silicate 0.5 mass parts;

(6) DMPA 0.75 mass parts.

Exsiccant regenerative PET and DMPA, 1010, JC-1225, organic layered silicate were mixed under 800 rev/mins rotating speed 3 minutes, this Preblend is through twin screw extruder extruding pelletization under vacuum condition, and dry.Exsiccant pellet and SEBS-GMA/ hydroxy silicon oil mixture were mixed under 400 rev/mins rotating speed 2 minutes, under 1000 rev/mins rotating speed, continued to mix 6 minutes, through twin screw extruder extruding pelletization under vacuum condition, add the successive long glass fibres at the glass spout simultaneously.

Ash content 23.8%

Izod notched Izod impact strength 203J/m

Tensile strength 71MPa

Bending strength 89MPa

Embodiment 3

Get the raw materials ready by following prescription:

(1) regenerative PET 65 mass parts;

(2) GF 25 mass parts;

(3) E-MA-GMA/EPDM-GMA (3:1) 10 mass parts;

(4) 1010/JC-1225 (2:1) 3.0 mass parts;

(5) organic layered silicate 0.7 mass parts;

(6) glycerine 0.75 mass parts.

Exsiccant regenerative PET and DMPA, 1010, JC-1225, organic layered silicate were mixed under 1000 rev/mins rotating speed 5 minutes, this Preblend is through twin screw extruder extruding pelletization under vacuum condition, and dry.Exsiccant pellet and E-MA--GMA/EPDM-GMA mixture were mixed under 300 rev/mins rotating speed 3 minutes, under 800 rev/mins rotating speed, continued to mix 5 minutes, through twin screw extruder extruding pelletization under vacuum condition, add the successive long glass fibres at the glass spout simultaneously.

Ash content 24.3%

Izod notched Izod impact strength 241J/m

Tensile strength 70MPa

Bending strength 86MPa

Embodiment 4

Get the raw materials ready by following prescription:

(1) regenerative PET 70 mass parts;

(2) GF 25 mass parts;

(3) SEBS-GMA/ hydroxy silicon oil (3:1) 5 mass parts;

(4) 1010/JC-1225 (1:1) 2.0 mass parts;

(5) organic layered silicate 0.5 mass parts;

(6) DMPA 0.75 mass parts.

Exsiccant regenerative PET and DMPA, 1010, JC-1225, organic layered silicate were mixed under 900 rev/mins rotating speed 4 minutes, this Preblend is through twin screw extruder extruding pelletization under vacuum condition, and dry.Exsiccant pellet and SEBS-GMA/ hydroxy silicon oil mixture were mixed under 300 rev/mins rotating speed 2 minutes, under 800 rev/mins rotating speed, continued to mix 8 minutes, through twin screw extruder extruding pelletization under vacuum condition, add the successive long glass fibres at the glass spout simultaneously.

Ash content 24.1%

Izod notched Izod impact strength 125J/m

Tensile strength 80MPa

Bending strength 99MPa

Embodiment 5

Get the raw materials ready by following prescription:

(1) regenerative PET 65 mass parts;

(2) GF 25 mass parts;

(3) SEBS-GMA 10 mass parts;

(4) 1010/JC-1225 (2:1) 3.0 mass parts;

(5) organic layered silicate 0.5 mass parts;

(6) polyglycerol acrylate 0.75 mass parts.

Exsiccant regenerative PET and polyglycerol acrylate, 1010, JC-1225, organic layered silicate were mixed under 800 rev/mins rotating speed 3 minutes, this Preblend is through twin screw extruder extruding pelletization under vacuum condition, and dry.Exsiccant pellet and SEBS-GMA were mixed under 300 rev/mins rotating speed 2 minutes, under 900 rev/mins rotating speed, continued to mix 6 minutes, through twin screw extruder extruding pelletization under vacuum condition, add the successive long glass fibres at the glass spout simultaneously.

Ash content 24.2%

Izod notched Izod impact strength 225J/m

Tensile strength 79MPa

Bending strength 117MPa

Embodiment 6

Get the raw materials ready by following prescription:

(1) regenerative PET 65 mass parts;

(2) GF 25 mass parts;

(3) hydroxy silicon oil 10 mass parts;

(4) 1010/JC-1225 (1:2) 3.0 mass parts;

(5) organic layered silicate 0.5 mass parts;

(6) polyglycerol acrylate 0.75 mass parts.

Exsiccant regenerative PET and polyglycerol acrylate, 1010, JC-1225, organic layered silicate were mixed under 1200 rev/mins rotating speed 5 minutes, this Preblend is through twin screw extruder extruding pelletization under vacuum condition, and dry.Exsiccant pellet and hydroxy silicon oil were mixed under 500 rev/mins rotating speed 3 minutes, under 1200 rev/mins rotating speed, continued to mix 8 minutes, through twin screw extruder extruding pelletization under vacuum condition, add the successive long glass fibres at the glass spout simultaneously.

Ash content 24.1%

Izod notched Izod impact strength 112J/m

Tensile strength 73MPa

Bending strength 87MPa

Embodiment 7

Get the raw materials ready by following prescription:

(1) regenerative PET 60 mass parts;

(2) GF 30 mass parts;

(3) hydroxy silicon oil 10 mass parts;

(4) 1010/JC-1225 (1:2) 3.0 mass parts;

(5) organic layered silicate 0.5 mass parts;

(6) polyglycerol acrylate 0.75 mass parts.

Exsiccant regenerative PET and polyglycerol acrylate, 1010, JC-1225, organic layered silicate were mixed under 1000 rev/mins rotating speed 3 minutes, this Preblend is through twin screw extruder extruding pelletization under vacuum condition, and dry.Exsiccant pellet and SEBS-GMA were mixed under 500 rev/mins rotating speed 3 minutes, under 1000 rev/mins rotating speed, continued to mix 5 minutes, through twin screw extruder extruding pelletization under vacuum condition, add the successive long glass fibres at the glass spout simultaneously.

Ash content 29.0%

Izod notched Izod impact strength 102J/m

Tensile strength 85MPa

Bending strength 126MPa

Embodiment 8

Get the raw materials ready by following prescription:

(1) regenerative PET 60 mass parts;

(2) GF 30 mass parts;

(3) E-MA-GMA/ polyether silicone oil (3:1) 10 mass parts;

(4) 1010/JC-1225 (1:2) 3.0 mass parts;

(5) organic layered silicate 0.5 mass parts;

(6) DMPA 0.75 mass parts.

Exsiccant regenerative PET and DMPA, 1010, JC-1225, organic layered silicate were mixed under 900 rev/mins rotating speed 4 minutes, this Preblend is through twin screw extruder extruding pelletization under vacuum condition, and dry.Exsiccant pellet and E-MA-GMA/ polyether silicone oil were mixed under 300 rev/mins rotating speed 2 minutes, under 900 rev/mins rotating speed, continued to mix 8 minutes, through twin screw extruder extruding pelletization under vacuum condition, add the successive long glass fibres at the glass spout simultaneously.

Ash content 29.1%

Izod notched Izod impact strength 189J/m

Tensile strength 83MPa

Bending strength 122MPa

Claims

1, a kind of easy-formation high impact resistance regenerative PET/GF automobile inner fitting special-purpose material is characterized in that comprising following component:

(1) regenerative PET 55～80 mass parts;

(2) GF 15～35 mass parts;

(3) toughner 5～10 mass parts;

(4) oxidation inhibitor 1.0～3.0 mass parts;

(5) nucleator 0.2～0.7 mass parts;

(6) chainextender 0.75 mass parts.

2, easy-formation high impact resistance regenerative PET as claimed in claim 1/GF automobile inner fitting special-purpose material is characterized in that described regenerative PET is the pulverizing material of PET goods.

3, easy-formation high impact resistance regenerative PET as claimed in claim 1/GF automobile inner fitting special-purpose material is characterized in that described GF is an alkali-free glass fiber.

4, easy-formation high impact resistance regenerative PET as claimed in claim 1/GF automobile inner fitting special-purpose material is characterized in that described oxidation inhibitor is antioxidant 1010, the two mixture with arbitrary proportion of oxidation inhibitor JC-1225.

5, easy-formation high impact resistance regenerative PET as claimed in claim 1/GF automobile inner fitting special-purpose material is characterized in that described nucleator is organic layered silicate.

6, easy-formation high impact resistance regenerative PET as claimed in claim 1/GF automobile inner fitting special-purpose material is characterized in that described chainextender is any one in 2,2 ' dimethylol propionic acid, glycerol, the polyglycerol acrylate.

7, easy-formation high impact resistance regenerative PET as claimed in claim 1/GF automobile inner fitting special-purpose material is characterized in that described toughner is the mixture of any one or more than one arbitrary proportion in SEBS-GMA, POE-GMA, EPDM-GMA, E-MA-GMA, hydroxy silicon oil, the polyether silicone oil.

8, the preparation method of any described easy-formation high impact resistance regenerative PET/GF automobile inner fitting special-purpose material of claim 1 to 7 is characterized in that comprising the steps:

6) with premix compound II through twin screw extruder extruding pelletization under vacuum condition, simultaneously adding successive GF at the glass spout is glass fibre.

9, as method as described in the claim 8, it is characterized in that step 1) is at 90 ℃ of following vacuum-drying 5～6h.