Polyamide elastomer thermal shrinkable material, polyamide elastomer double-layer material
A technology of polyamide elastomer and polyamide, applied in the direction of film/sheet adhesives, adhesives, etc., can solve the problems of poor oil and chemical resistance, high temperature resistance, and wear resistance, etc., and achieve flexural resistance Good, good oil resistance and chemical solvent resistance, simple preparation method
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[0041] The preparation method of polyamide elastomer heat-shrinkable material of the present invention comprises the following steps:
[0042] Step 1: According to the relative weight ratio, mix 0-50 parts of halogen-containing flame retardant, 0-20 parts of flame retardant synergist, 1.5-3 parts of multifunctional acrylate reaction monomer, 0.5-6 parts of antioxidant, light 0-3 parts of stabilizer and 0-5 parts of color masterbatch are fully mixed at room temperature;
[0043] Step 2: Mix the material uniformly mixed in step 1 with the polyamide elastomer with a relative weight ratio of 100 parts in a twin-screw mixer in the temperature range of 150°C-250°C, then extrude the strands, water-cool, air-dry, cut grain;
[0044] Step 3: extruding the above-mentioned pellets into a tube at a temperature of 150°C-250°C;
[0045] Step 4: irradiate the above-mentioned pipes with gamma rays or electron accelerators, and the radiation dose is 80-250KGY;
[0046] Step 5: Then expand a...
preparation Embodiment 1
[0051] Polyamide elastomer substrate (Vestamid E55-S1, PA12 elastomer, German Degussa company) 100Kg and tetrakis [3-(3,5-di-tert-butyl-4-hydroxyphenyl) propionate] pentaerythritol ester (antioxidant Agent 1010) 6Kg, trimethylolpropane trimethacrylate (TMPTMA) 1.5Kg;
[0052] Mix evenly in a high-speed mixer at a speed of 60 to 120rpm, and extrude into transparent or translucent polyamide elastomer pipe semi-finished products after mixing by a twin-screw mixer at a temperature of 190°C. After the electron beam is irradiated with a dose of 150KGY, it is expanded by 4 times to become a heat-shrinkable tube.
[0053] Its shrinkage performance is shown in the following table: (shrink in a glycerin pool at 180°C for 3 minutes)
[0054] inner diameter(mm)
preparation Embodiment 2
[0056] Polyamide elastomer substrate (Vestamid E47-S1, PA12elastomer, Germany Degussa company) 100Kg and tetrakis [3-(3,5-di-tert-butyl-4-hydroxyphenyl) propionate] pentaerythritol ester (antioxidant 1010) 1Kg, trimethylolpropane trimethacrylate (TMPTMA) 3Kg, decabromodiphenylethane 20Kg, antimony trioxide 8Kg, masterbatch 5Kg;
[0057] Mix well at a speed of 60-120rpm in a high-speed mixer. Then, at a temperature of 190° C., the strands are extruded after kneading by a twin-screw kneader, water-cooled, air-dried, and pelletized. It is then extruded into a tube, irradiated by an electron accelerator at 100KGY, and then expanded twice to become a heat-shrinkable tube. The measurements are as follows:
[0058]
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