Method of preparing syndiotectic polystyrene
A polystyrene and styrene technology, applied in the field of preparing syndiotactic polystyrene, can solve the problems of high energy consumption, low styrene conversion rate, etc., and achieve the effects of reducing power consumption, delaying the polymerization reaction rate, and not easy to agglomerate
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Embodiment 1
[0014] On a 10-liter mechanically stirred tank, first bake at 90°C for 8 hours, then cool down to 60°C, N 2 After pumping and draining 3 times, 1500 ml of styrene monomer and 1500 ml of hexane were added. After stirring for 30 minutes, inject the toluene solution containing 29.25 mmoles of triisobutylaluminum, 48.75 mmoles of MAO, 0.195 mmoles of the titanocene catalyst of Example 1 with a syringe, and stir and react after 4 hours at 300 rpm, wherein The maximum stirring power is 1.9 kilowatts, stop the reaction with ethanol-hydrochloric acid solution, wash, and dry to obtain 1050 grams of powder solids, 50 grams of granular materials larger than 0.8 mm, styrene conversion rate 81.5%, syndiotacticity 97%, initial crystallinity 40% , molecular weight distribution 1.9.
Embodiment 2
[0016] On a 10-liter mechanically stirred tank, first bake at 90°C for 8 hours, then cool down to 60°C, N 2 After pumping and draining 3 times, 1000 ml of styrene monomer and 2000 ml of hexane were added. After stirring for 30 minutes, inject the toluene solution containing 29.25 mmoles of triisobutylaluminum, 48.75 mmoles of MAO, 0.195 mmoles of the titanocene catalyst of Example 1 with a syringe, and stir and react after 4 hours at 300 rpm, wherein The maximum stirring power is 1.4 kilowatts, stop the reaction with ethanol-hydrochloric acid solution, wash, and dry to obtain 730 grams of powder solids, 10 grams of granular materials larger than 0.8 mm, styrene conversion rate 82.2%, syndiotacticity 97%, initial crystallinity 41% , molecular weight distribution 1.9.
Embodiment 3
[0018] On a 10-liter mechanically stirred tank, first bake at 90°C for 8 hours, then cool down to 60°C, N 2 Evacuated 3 times, added 750 ml of styrene monomer and 2250 ml of hexane. After stirring for 30 minutes, inject the toluene solution containing 29.25 mmoles of triisobutylaluminum, 48.75 mmoles of MAO, 0.195 mmoles of the titanocene catalyst of Example 1 with a syringe, and stir and react after 4 hours at 300 rpm, wherein The maximum stirring power is 1.2 kilowatts, stop the reaction with ethanol-hydrochloric acid solution, wash, and dry to obtain 540 grams of powder solids, 5 grams of granular materials larger than 0.8 mm, styrene conversion rate of 80.7%, syndiotacticity of 97%, and initial crystallinity of 43%. , molecular weight distribution 1.9.
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