Patent ID: 7914699
Filing Date: 2011-03-29
Classification: C08G,D01F,Y10T

Abstract:
1. A method for making a liquid crystal resin, comprising performing acetylation reaction between phenolic hydroxyl groups contained in a raw material comprising at least two types of aromatic diols and 1.03 to 1.09 mol equivalents of acid anhydride based on the total of the phenolic hydroxyl groups at a temperature of 140° C. to 150° C. for 2.1 to 2.9 hours; and subsequently performing polycondensation, wherein the acetylation reaction is performed until the residual amount of a monoacetyl derivative of an aromatic diol (A) determined from the equation below reaches 0.8 to 5 mol % of the amount of the aromatic diol (A) initially charged, the aromatic diol (A) being an aromatic diol in which the rate of conversion from monoacetyl derivatives to diacetyl derivative is the lowest among the aromatic diols: wherein [monoacetyl derivative] represents the molar amount of the monoacetyl derivatives of the aromatic diol (A), and [diacetyl derivative] represents the molar amount of the diacetyl derivatives of the aromatic diol (A) and wherein the liquid crystal resin comprises structural units derived from at least two types of aromatic diols, wherein the liquid crystal resin generates 100 ppm or less of acetic acid gas, less than 20 ppm of phenol gas, and less than 100 ppm of carbon dioxide gas when the liquid crystal resin is retained at a melting point +10° C. or, at 335° C. when the melting point is less than 325° C., for 30 minutes in a helium gas atmosphere.