rABS/PBT/ASG composite material and preparation method thereof

Abstract

A rABS/PBT/ASG composite material and a preparation method thereof utilize the characteristics of rABS with carboxyl and hydroxyl groups, wherein rABS are pre-blended with ASG to increase the viscosity, so that the epoxy groups on the ASG molecules react with the hydroxyl groups and the carboxyl groups on the rABS, and the acrylonitrile-styrene segments in ASG and rABS are thermodynamically miscible, followed by reacting and blending with PBT to prepare the rABS/PBT/ASG composite material. ASG acts as a chain extender and solubilizer in the mixture. The mixture prepared in this way have good compatibility, and the tensile strength, impact strength and elongation at break of the composite material are comprehensively improved. The composite material obtained has the advantages of both ABS and PBT materials, which has broad application prospects in the field of ABS plastic recycling.

Claims

1. A method for preparing a rABS/PBT/ASG composite material, characterized in that it comprises the following steps: melt blending rABS and ASG, then adding PBT for melt blending, successively cooling, air-drying, crushing and drying the resulted mixture to obtain the rABS/PBT/ASG composite material.

2. The method for preparing the rABS/PBT/ASG composite material according to claim 1, wherein: the rABS is particles obtained by screening, crushing by a crusher, washing, drying, extruding, pelletizing and drying of waste ABS; the PBT is commonly used commercially available extrusion-grade particles.

3. The method for preparing the rABS/PBT/ASG composite material according to claim 1, wherein: the mass ratio of styrene, acrylonitrile and glycidyl methacrylate in the ASG is St/AN/GMA=65/25/6.

4. The method for preparing the rABS/PBT/ASG composite material according to claim 1, wherein: the mass parts of rABS and PBT in the mixture are 70 parts of rABS and 30 parts of PBT.

5. The method for preparing the rABS/PBT/ASG composite material according to claim 1, wherein: the weight of ASG in the mixture is 2%-8% of the total weight of rABS and PBT.

6. The method for preparing the rABS/PBT/ASG composite material according to claim 1, wherein: the time for melt blending rABS and ASG is 4-6 min; the total blending time for melt blending the rABS is 10-12 min.

7. The method for preparing the rABS/PBT/ASG composite material according to claim 1, wherein: the temperature of the melt blending is 220-250° C.

8. The method for preparing the rABS/PBT/ASG composite material according to claim 1, wherein: the rotor speed of the melt blending is 40-60 rpm.

9. The method for preparing the rABS/PBT/ASG composite material according to claim 3, wherein: the ASG is prepared by the following method: measuring 200 mL of deionized water in a beaker, adding 1 g of polyvinyl alcohol, stirring and pouring into a 1 L three-necked flask; successively measuring 100 ml of deionized water to wash the beaker for 3 times, pouring the washed solution into the three-necked flask, heating and stirring at a heating temperature of 65° C., wherein the stirring speed is configured to allow the liquid to swirl but not splashing; after the temperature is stable for 30 minutes, adding 65 g of refined styrene, 25 g of acrylonitrile, 6 g of glycidyl methacrylate, and 1 g of dibenzoyl peroxide in a three-necked flask, heating and stirring for 7˜8 h, raising the temperature to 75° C. to harden for 1˜2 h, conducting suction filtration and washing the product with hot water for 3˜5 times to remove monomers, and drying the obtained ASG beads at 45° C. for 12 h.

10. A rABS/PBT/ASG composite material, obtained by the method of claim 1.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is an SEM image of the rABS/PBT/ASG composite material prepared in Example 1.

(2) FIG. 2 is an SEM image of the rABS/PBT/ASG composite material prepared in Example 2.

(3) FIG. 3 is an SEM image of the rABS/PBT/ASG composite material prepared in Example 3.

DETAILED DESCRIPTION

(4) The present invention will be further described in detail below in conjunction with the examples and drawings, but the implementation of the present invention is not limited to this. For parameters that are not specifically described, reference can be made to conventional techniques.

(5) The rABS used in the following examples was provided by Guangzhou Kingfa Technology Co., Ltd.; the PBT used was purchased from BASF, Germany, and the model is B6550;

(6) analytical reagent (AR) acrylonitrile and styrene were provided by Guangzhou Wenrui Scientific Instrument Co., Ltd.; glycidyl methacrylate was purchased from Aladdin Reagent (Shanghai) Co., Ltd., with a concentration of 97%; polyvinyl alcohol was purchased from Aladdin Reagent (Shanghai) Co., Ltd., with a concentration of 99.8%; analytical reagent (AR) dibenzoyl peroxide was purchased from Aladdin Reagent (Shanghai) Co., Ltd.

Example 1

(7) This example provides a rABS/PBT/ASG006 composite material and a preparation method thereof.

(8) Weigh 42 g of rABS, 18 g of PBT and 1.2 g of ASG006, first blend rABS and ASG006 in a Brabender internal mixer for 4 minutes, and then add PBT to continue melting and blending for 6 minutes, where all the three-stage melting temperatures of the Brabender internal mixer were 240° C., and the screw speed was 40 rpm. After internal mixing and molding, cooling, air drying, crushing, and drying, the rABS/PBT/ASG006 composite material was obtained.

Example 2

(9) As a comparative example of Example 1, this example provides a rABS/PBT/ASG006 composite material prepared by blending rABS, PBT and ASG006 simultaneously.

(10) Weigh 42 g of rABS, 18 g of PBT, and 1.2 g of ASG006. Mix the above components in a Brabender internal mixer for 10 minutes, wherein all the three-stage melting temperatures of the Brabender internal mixer were set to 240° C., and the screw speed was 40 rpm. After internal mixing and molding, cooling, air drying, crushing, and drying, the rABS/PBT/ASG0006 composite material was obtained.

Example 3

(11) As a comparative example of Example 1, this example provides a rABS/PBT/ASG006 composite material prepared by mixing ASG006 with PBT followed by mixing with rABS.

(12) Weigh 42 g of rABS, 18 g of PBT and 1.2 g of ASG006, first mix PBT and ASG006 in a Brabender internal mixer for 4 minutes, then mix with rABS for 6 minutes, wherein all the Brabender three-stage melting temperatures were set to 240° C., and the screw speed was 40 rpm. After internal mixing and molding, cooling, air drying, crushing, and drying, the rABS/PBT/ASG0006 composite material was obtained.

Example 4

(13) This example serves as a comparative example of Example 1 and provides a rABS/PBT/ASG composite material using ASG002 as a chain extender and a solubilizer.

(14) Weigh 42 g of rABS, 18 g of PBT, and 1.2 g of ASG002 which was prepared by suspension polymerization, wherein the ratio of three monomers was styrene:acrylonitrile:glycidyl methacrylate=65/25/2. First mix rABS and ASG002 in a Brabender internal mixer for 4 minutes, then mix with PBT for 6 minutes, wherein all the three-stage melting temperatures were 240° C., and the screw speed is 40 rpm. After internal mixing and molding, cooling, air drying, crushing, and drying, the rABS/PBT/ASG0002 composite material was obtained.

Example 5

(15) This example serves as a comparative example of Example 1 and provides a rABS/PBT/ASG composite material using ASG004 as a chain extender and a solubilizer.

(16) Weigh 42 g of rABS, 18 g of PBT, and 1.2 g of ASG004 which was prepared by suspension polymerization, wherein the ratio of three monomers was styrene:acrylonitrile:glycidyl methacrylate=65/25/4. First mix rABS and ASG004 in a Brabender internal mixer for 4 minutes, then mix with PBT for 6 minutes, wherein all the three-stage melting temperatures were 240° C., and the screw speed was 40 rpm. After internal mixing and molding, cooling, air drying, crushing, and drying, the rABS/PBT/ASG0004 composite material was obtained.

Example 6

(17) This example serves as a comparative example of Example 1 and provides a rABS/PBT/ASG composite material using ASG008 as a chain extender and a solubilizer.

(18) Weigh 42 g of rABS, 18 g of PBT, and 1.2 g of ASG008 which was prepared by suspension polymerization, wherein the ratio of three monomers was styrene:acrylonitrile:glycidyl methacrylate=65/25/8. First mix rABS and ASG008 in a Brabender internal mixer for 4 minutes, then mix with PBT for 6 minutes, wherein all the three-stage melting temperatures were 240° C., and the screw speed was 40 rpm. After internal mixing and molding, cooling, air drying, crushing, and drying, the rABS/PBT/ASG0008 composite material was obtained.

(19) Refer to GB/T 1040-2006, the tensile strength and elongation at break of the composite materials in Examples 1-6 were tested, and refer to GB/T 1043-2008, the Izod notched impact strength of the composite materials in Example 1-6 was tested, the results being shown in Table 1.

(20) From Example 1, Example 2, and Example 3, it can be seen that compared with the method of mixing rABS, ASG and PBT simultaneously (Example 2) and the method of mixing ASG with PBT first and then with rABS (Example 3), the method of first mixing rABS with ASG and then with PBT (Example 1) can significantly improve the tensile strength, elongation at break and Izod notched impact strength of the material.

(21) From Example 1, Example 4, Example 5, and Example 6, it can be seen that different GMA contents in ASG may affect the comprehensive effect of chain extension and reaction compatibility. ASG006 can optimally match the process, and the resulting rABS/PBT/ASG composite material has the best comprehensive mechanical properties.

(22) The microscopic morphology of the rABS/PBT/ASG composite materials prepared in Examples 1-3 (after being etched) was observed with a scanning electron microscope. The results are shown in FIGS. 1-3, wherein the upper left corner of FIG. 3 shows the microscopic morphology of the etched PBT phase enlarged by 4 times. It can be seen that compared with the rABS/PBT/ASG composite material prepared by either the one-step method or melt blending with PBT at first, the rABS/PBT/ASG06 composite material prepared by melt blending rABS and ASG006 at first has a better interface, smaller particle size and more uniform distribution, where the two phases can be mixed better under the same compatibilizers.

(23) TABLE-US-00001 TABLE 1 Mechanical properties of the composite materials of Examples 1-6 Tensile Elongation Izod notched strength at break impact strength (MPa) (%) (KJ/m.sup.2) Standard GB/T 1040-2006 GB/T 1043-2008 Example 1 34.4 14.81 3.019 Example 2 33.19 12.46 2.026 Example 3 29.88 6.53 1.770 Example 4 33.18 9.74 2.124 Example 5 34.06 9.58 2.632 Example 6 33.69 10.67 2.867

Example 7

(24) This Example provides a rABS/PBT/ASG006 composite material and a preparation method thereof.

(25) A rABS/PBT/ASG006 composite material is provided, where ASG006 accounts for 5% of the total mass of rABS and PBT.

(26) Preparation method: weigh 42 g of rABS, 18 g of PBT and 3.0 g of ASG006, mix rABS and ASG006 in a Brabender internal mixer for 4 minutes, then mix with PBT for 6 minutes, wherein all the Brabender three-stage melting temperatures were set to 240° C., and the screw speed was 40 rpm. After internal mixing and molding, cooling, air drying, crushing, and drying, the rABS/PBT/ASG0006 composite material was obtained.

Example 8

(27) This Example provides a rABS/PBT/ASG006 composite material and a preparation method thereof.

(28) A rABS/PBT/ASG006 composite material is provided, where ASG006 accounts for 8% of the total mass of rABS and PBT.

(29) Preparation method: weigh 42 g of rABS, 18 g of PBT and 4.8 g of ASG006, mix rABS and ASG006 in a Brabender internal mixer for 4 minutes, then mix with PBT for 6 minutes, wherein all the Brabender three-stage melting temperatures were set to 240° C., and the screw speed was 40 rpm. After internal mixing and molding, cooling, air drying, crushing, and drying, the rABS/PBT/ASG0006 composite material was obtained.

(30) The above-mentioned embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited by the above-mentioned embodiments, and any other changes, modifications, substitutions, combinations, and simplifications made without departing from the spirit and principle of the present invention all should be equivalent replacement methods, and they are all included in the protection scope of the present invention.

rABS/PBT/ASG composite material and preparation method thereof

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Abstract

Claims

Description