TH54498A - Polyester poly condensation with catalyst And catalyst additive - Google Patents

Abstract

DC60 (14/03/45) This invention is based on the discovery that non-titanium oxalate can enhance the catalytic function of titanium oxalate catalyst. This provides a mixture that Catalyzed a new type of reaction containing titanium oxalate, catalyst and oxalate additives. Metal catalyst And selectively With a metallic co-catalyst, such as a catalyst with an antimony Relationship Synergism was discovered between titanyl oxalate catalyst and catalyst additive. Relationship Synergism was discovered between titanium oxalate catalyst, catalyst additive. And metal co-catalysts such as antimony oxide or antimony triacetate as well. That was also provided is the improved process of the production of polyester. By the polycondensation of the polyesters inducing reactants in the presence of catalytic effect numbers of catalysts for polycondensation. The enhancements included the use of new catalyst mixtures containing titanium oxalate such as lithium titanyl oxalate and catalist additives such as metallic non-titanium oxalate. Such as lithium oxalate and selectively. Containing metal catalysts such as antimony oxide or antimony triacetate as catalyst for polycondensation. The improved process produces polyester. Improved It has lower acetaldehyde content and good color. Mixture of titanium oxalate / catalyst additive. Can be used as catalyst for poly condensation. In combination with other catalysts To obtain synergistic catalytic activity, a popular combination of lithium or potassium titanium oxalate, Li2 or K2TiO (C2O4) 2, lithium or potassium oxalate. , Li2 or K2 (C2O4) 2 with antimony oxide or antimony acetate or antimony triglycoxide. The invention is based on the discovery that non-titanium oxalate can enhance the catalytic function of titanium oxalate catalyst. Catalyzed a new type of reaction containing titanium oxalate, catalyst and oxalate additives. Metal catalyst And selectively With a metallic co-catalyst, such as a catalyst with an antimony Relationship Synergism was discovered between titanyl oxalate catalyst and catalyst additive. Relationship Synergism was discovered between titanium oxalate catalyst, catalyst additive. And metal co-catalysts such as antimony oxide or antimony triacetate as well. That was also provided is the improved process of the production of polyester. By the polycondensation of the polyesters inducing reactants in the presence of catalytic effect numbers of catalysts for polycondensation. The enhancements included the use of new catalyst mixtures containing titanium oxalate such as lithium titanyl oxalate and catalist additives such as metallic non-titanium oxalate. Such as lithium oxalate, and optionally with metallic catalysts such as antimony oxide or antimony triacetate as catalyst for polycondensation. The improved process produces polyester. Improved It has lower acetaldehyde content and good color. Mixture of titanium oxalate / catalyst additive. Can be used as catalyst for poly condensation. In combination with other catalysts To obtain synergistic catalytic activity, a popular combination of lithium or potassium titanium oxalate, Li2 or K2TiO (C2O4) 2, lithium or potassium oxalate. , Li2 or K2 (C2O4) 2 with antimony oxide or antimony acetate or antimony triglycoxide.

Claims (1)

: DC60 (14/03/45) This invention is based on the discovery that non-titanium oxalate can enhance the catalytic function of titanium oxalate catalyst. This invention provides a mixture that Catalyzed a new type of reaction containing titanium oxalate, catalyst and oxalate additives. Metal catalyst And selectively With a metallic co-catalyst, such as a catalyst with an antimony Relationship Synergism was discovered between titanyl oxalate catalyst and catalyst additive. Relationship Synergism was discovered between titanium oxalate catalyst, catalyst additive. And metal co-catalysts such as antimony oxide or antimony triacetate as well. That was also provided is the improved process of the production of polyester. By the polycondensation of the polyesters inducing reactants in the presence of catalytic effect numbers of catalysts for polycondensation. The enhancements included the use of new catalyst mixtures containing titanium oxalate such as lithium titanyl oxalate and catalist additives such as metallic non-titanium oxalate. Such as lithium oxalate and selectively. Containing metal catalysts such as antimony oxide or antimony triacetate as catalyst for polycondensation. The improved process produces polyester. Improved It has lower acetaldehyde content and good color. Mixture of titanium oxalate / catalyst additive. Can be used as catalyst for poly condensation. In combination with other catalysts To obtain synergistic catalytic activity, a popular combination of lithium or potassium titanium oxalate, Li2 or K2TiO (C2O4) 2, lithium or potassium oxalate. , Li2 or K2 (C2O4) 2 with antimony oxide or antimony acetate or antimony triglycoxide. The invention is based on the discovery that non-titanium oxalate can enhance the catalytic function of titanium oxalate catalyst. Catalyzed a new type of reaction containing titanium oxalate, catalyst and oxalate additives. Metal catalyst And selectively With a metallic co-catalyst, such as a catalyst with an antimony Relationship Synergism was discovered between titanyl oxalate catalyst and catalyst additive. Relationship Synergism was discovered between titanium oxalate catalyst, catalyst additive. And metal co-catalysts such as antimony oxide or antimony triacetate as well. That was also provided is the improved process of the production of polyester. By the polycondensation of the polyesters inducing reactants in the presence of catalytic effect numbers of catalysts for polycondensation. The enhancements included the use of new catalyst mixtures containing titanium oxalate such as lithium titanyl oxalate and catalist additives such as metallic non-titanium oxalate. Such as lithium oxalate, and optionally with metallic catalysts such as antimony oxide or antimony triacetate as catalyst for polycondensation. The improved process produces polyester. Improved It has lower acetaldehyde content and good color. Mixture of titanium oxalate / catalyst additive. Can be used as catalyst for poly condensation. In combination with other catalysts To obtain synergistic catalytic activity, a popular combination of lithium or potassium titanium oxalate, Li2 or K2TiO (C2O4) 2, lithium or potassium oxalate. , Li2 or K2 (C2O4) 2 with antimony oxide or nitric acid acetate or antimony triglycoxide. (Section One) which will appear on the Notice page: Amendment 31/03/2017 1 8. Combination of Clause 4, in which the additive contains from 0.1 parts to 80 parts by weight of the mixture 1 9. Improved process of polyester production By polycondensation catalyzed Of the reactants that form the polyester In the presence of catalysts for poly condensation Which improvement Contains the use of a combination of the catalist according to claim No. 1 tag: