Method for preparing modified terephthalic acid neopentyl glycol copolyester hot melt adhesive for making membranes
A technology of pentanediol copolyester and terephthalic acid, used in adhesives and other directions, can solve the problems of easy transportation and storage, low initial melting point, etc., and achieve the effect of not easy to accumulate and stick into blocks
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Embodiment 1
[0017] In a 2.5L polymerization reactor with a distillation device, add terephthalic acid (199.32g), isophthalic acid (66.44g), neopentyl glycol (156.23g), ethylene glycol (89.28g) and poly Ethylene glycol 400 (24.0g), titanium-silicon composite catalyst (0.137g), heating and stirring, when the internal temperature reaches 137°C, the material begins to melt;
[0018] When the internal temperature reached about 177°C, water began to distill out, and the temperature continued to rise to 200°C. When the amount of distilled water in the receiving bottle was 53.6g, the esterification reaction ended. Continue to raise the temperature to 235° C., distill off unreacted alcohol and a small amount of water, and then carry out reduced-pressure compression polymerization. The system pressure is kept at 300 Pa. The reaction time is 1.5 hours, and the polycondensation reaction ends. Release the vacuum state of the system, add microcrystalline wax (5.48g) to the product of step (2) at 230°C ...
Embodiment 2
[0020] In a 2.5L polymerization reactor with a distillation device, add terephthalic acid (182.74g), isophthalic acid (83.06g), neopentyl glycol (187.47g), ethylene glycol (70.76g) and poly Ethylene glycol 400 (24.0g), titanium-silicon composite catalyst (0.067g), heating and stirring, when the internal temperature reaches 136°C, the material begins to melt;
[0021] When the internal temperature reached about 181°C, water began to distill out, and the temperature continued to rise to 198°C. When the amount of distilled water in the receiving bottle was 52.7g, the esterification reaction ended. Continue to raise the temperature to 239° C., distill off unreacted alcohol and a small amount of water, and then carry out reduced-pressure compression polymerization. The system pressure is kept at 220 Pa. The reaction time is 1.5 hours, and the polycondensation reaction is completed. Release the vacuum state of the system, add microcrystalline wax (6.0 g) to the product of step (2) a...
Embodiment 3
[0024] In a 2.5L polymerization reactor with a distillation device, add terephthalic acid (199.32g), isophthalic acid (66.44g), neopentyl glycol (187.47g), ethylene glycol (70.76g) and poly Ethylene glycol 400 (24.0g), titanium-silicon composite catalyst (0.164g), heating and stirring, when the internal temperature reaches 141°C, the material begins to melt;
[0025] When the internal temperature reached about 178°C, water began to distill out, and the temperature continued to rise to 199°C. When the amount of distilled water in the receiving bottle was 54.6g, the esterification reaction ended. Continue to raise the temperature to 237° C., distill unreacted alcohol and a small amount of water, and then carry out reduced-pressure compression polymerization. The system pressure is kept at 130 Pa. The reaction time is 1.2 hours, and the polycondensation reaction is completed. Release the vacuum state of the system, add microcrystalline wax (2.98 g) to the product of step (2) at 2...
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