Patent ID: 7754848
Filing Date: 2010-07-13
Classification: C08G

Abstract:
1. A process for producing a poly(arylene sulfide) by polymerizing a sulfur source and a dihalo-aromatic compound in the presence of an alkali metal hydroxide in an organic amide solvent, which comprises washing a granular polymer obtained by the polymerization with a hydrophilic organic solvent containing water in a proportion of 1 to 20% by weight, thereby collecting a purified granular polymer, the content of nitrogen contained in an extract extracted by a mixed solvent containing 40% by weight of acetonitrile and 60% by weight of water from the purified polymer is at most 50 ppm on the basis of the weight of the polymer, wherein the production process of the poly(arylene sulfide) by polymerizing the sulfur source and the dihalo-aromatic compound in the presence of the alkali metal hydroxide in the organic amide solvent comprises the respective steps of: (1) a dehydration step of heating and reacting a mixture containing an organic amide solvent, an alkali metal hydrosulfide and the alkali metal hydroxide in a proportion of 0.95 to 1.05 mol per mol of the alkali metal hydrosulfide to discharge at least a part of a distillate containing water from the interior of the system containing the mixture to the exterior of the system, (2) a charging step of adding an alkali metal hydroxide and water to the mixture remaining in the system after the dehydration step, as needed, in such a manner that 1.00 to 1.09 mol of the alkali metal hydroxide and 0.5 to 2.0 mol of water are present per mol of a charged sulfur source including the alkali metal hydrosulfide, and (3) a first-stage polymerization step of adding the dihalo-aromatic compound to the mixture to subject the sulfur source and the dihalo-aromatic compound to a polymerization reaction at a temperature of 170 to 270° C. in the organic amide solvent, thereby forming a prepolymer that a conversion of the dihalo-aromatic compound is 50 to 98%, and (4) a second-stage polymerization step of controlling the amount of water in the reaction system after the first-stage polymerization step so as to bring about a state where water exists in a proportion of 2.0 to 10 mol per mol of the charged sulfur source, and heating the reaction system at 245 to 290° C., thereby continuing the polymerization reaction.