TH89988A - Polyester containers with increased gas barrier and methods - Google Patents

Abstract

DC60 (20/11/15) A polyester container with enhanced gas barrier properties includes: Polyester mixtures with IV values of 0.65 dl / g to 1.0 dl / g and contain polyesters and additives for enhancing reactive organic gas barrier. Polyester is produced. By using at least one polycondensation catalyst selected from the It contains metals group 3, 4, 13 and 14 of the periodic table and is composed of a catalytic residew. Which is left in the polyester from the formation of polyesters The catalyst reside contains At least some of at least one type of polycondensation catalyst. Revised Invention Conclusion 20/11/2015 Polyester containers with increased gas barrier properties include: Polyester mixtures with IV values from 0.65 dl / g to 1.0 dl / g and contain polyesters and organic gas barrier enhancement additives. Reaction Polyester is produced. By using at least one polycondensation catalyst selected from the It consists of metals of groups 3, 4, 13, and 14 of the periodic table and is composed of a reaction catalyst resin. Which is left in the polyester from the formation of polyesters The reaction catalyst is included. At least some of at least one type of polycondensation catalyst. -------------------------------------------------- ---------- Polyester containers with enhanced gas resistance properties include: Polyester mixtures with IV values of 0.65 dl / g to 1.0 l / g and contain polyesters and Additive for enhancing reactive organic gas Polyester is produced. By the use of at least one condensed polymerization catalyst selected from The group consists of metals groups 3, 4, 13 and 14 of the periodic table and consists of the remainder of Catalyst Which is left in the polyester from the formation of polyesters The rest of the accelerator The reaction consists of at least some of the condensed polymerization catalysts. At one, at least one of a kind

Claims (9)

Disclaimer (all) which will not appear on the advertisement page. : ------ 08/08/2018 ------ (OCR) Page 1 of 4 pages Clause 1. Containers consisting of a composite of polyester mixtures. With: Polyester produced by at least one polycondition catalyst. The species was selected from the metal-containing group in groups 3, 4, 13, and 14 of the periodic table and composed of the catalyst reside, which is left in the polyesters from polyethylene formation. Ester, in which the catalyst resin is composed of at least some of the first polycondensing catalyst At least one of a kind; And additives to increase the resistance of reactive organic gases; Where additives to increase Organic gas blocking is a compound with the chemical formula. R1OOC-AR-COOR2, where AR is selected. Come from a group consisting of: Panilene and Naphthalene, and R1 and R2 will be chosen from the group Contains alkyl groups with 1 to 10 carbon atoms, phenyl and naphthyl groups; Where the polyester mixture contains IV 0.65 dl / g to 1.0 dl / g 2. Container according to claim 1 where at least the first polycondensing catalyst most One is chosen from a group consisting of titanium, aluminum, germanium and gallium. 3. Containers pursuant to one of the claims 1 to 2 are also included. Second polycondensation catalyst selected from a group containing cobalt, antimony, zinc, manganese, magnesium, cesium, calcium and cadmium. Second polycondensation catalyst. Contains in the steroid mix in quantities up to 3 parts per million of steroster 4. Containers according to any claim of claim 1 to 3, No. 1. Which Paul S! Tor has Parameters of first dissolution conditions And with the free volume And additives to enhance gas barrier The organic type has the parameter of the second solubility condition, at least some of the additives are not. Reacts with polyester And contained in the empty volume of the polyester, the condition parameters The second dissolution is not greater than 20%, less than or greater than the first thaw condition parameter 5. Containers according to any of the claims 1 to 4, where the polyester There is In the amount of 99.99% to 90% steroid mixtures by weight of 4-page stereotexture mixtures and additives to increase the organic gas protection, there will be Is contained in the steroid mixture in amounts from 0.01% to 10% by weight of the polyester mixture.6. Container according to one of the claims of claim 1. To 5 places where the master Contains a poly (ethylene terephthalate) copolymer (PET copolymer) 7. Containers according to one of the claims of Claims 1 to 6 where additives To enhance protection, organic gases are selected compounds from the group containing dimethyl terephthalate, dimethyl isophthalate, 2,6-dimethyl naphthasate, di Ethyl Terephthalate and Diethyl Isophthalate 8. Containers pursuant to any of the Claims 1 through 7, where the mixture is The stereotype is further incorporated by the catalytic converting agent. Polycondensing for the reduction of the sensitivity of the catalyst resin to the polyester 9. Containers according to any of the claims 1 to 8, where: The container is Containers are rigid from extruded blow molding 1 which consists of a base, an open mouth part and a body extending from base to an open mouth section 1 0. Containers as per claim. 9th, suitable for use in beverage production through packaging 1 1. Method for manufacturing of gas-shielded containers that include the procedure of: mixing of polyesters with additives. Adding to enhance the reactive organic gas barrier. To form a polyester mix with IV 0.65 dl / g to 1.0 dl / g, which polyester is produced by At least one type of polycondensation catalyst was used, selected from metal-containing groups 3, 4, 13 and 14 of the periodic table, and containing resin catalysts. Remaining In polyesters from the formation of polyesters, in which the catalyst resin comprises at least At least one type of polycondensation catalyst; Where additives To increase the protection of organic gases into compounds with the chemical formula R100C-AR-C00R2, where AR was selected from a group consisting of ternalene and naphthalene, and R1 and R2 were selected from that group. Contains alkyl groups containing 1 to 10 carbon atoms, pinil and naphthyl groups; And ------------ 1. Containers consisting of a polyethylene compound containing: Polyester produced by accelerator. First condensed polymerization reaction At least one was selected from the metal group 3, 4, 13 and 14 of the periodic table and included the remainder of the catalyst left in the polymerization. The remainder of the catalyst contains at least some of the catalysts. At least one type of condensed polymerization reaction; And additives to increase the reactivity of gasification; Where the polyester mixtures are IV 0.65 dl / g to 1.0 dl / g 2. Container according to claim 1, where the polyester mixtures are valued. IV, from approximately 0.07 dl / g to approximately 0.86 dl / g 3 containers according to claim 1, where the polyester mixtures had IV values from approximately 0.07 dl / g to approx. 0.86 dl / g. 4. Package according to claim 1, where the condensed polymerization catalyst first. At least one of these was chosen from a group consisting of titanium, aluminum, germanium and gallium. 5. Containers according to claim 1 include further polymerization catalysts. A second tightly controlled model, which is very selective from the group containing cobalt, antimony, zinc, manganese, magnesium, cesium, calcium and cadmium. The second condensed polymerization catalyst has It is in the polyethylene mixture in the amount of 3 parts per million of the polyester. 6. The container according to claim 1, where the polyester has parameters of the condition Melt the first And has a free volume And additives to increase the organic gas barrier have parameters of the second solubility condition, with at least some of the additives not reacting with the polyester and filling. In the free volume of the polyester The second dissolution parameter is not greater than 20%, less than or greater than the first dissolution condition parameter. 7. Containers according to claim 1, where polyesters are contained in polyethylene mixtures. The amount of stters is from approximately 99.99% to approximately 90% by weight of the polyester mix. And additives to Increased organic gas barrier is contained in the polyester mixtures in amounts from approximately 0.01% to approximately 10% by weight of the polyester mixture. 8. Containers in accordance with the claim that 1 where the polyester is composed of a copolymer with Poly (ethylene terephthalate) as basis (PET copolymer) 9. Container according to claim 8, where the polyester is composed of a copolymer. With Polyethylene (terephthalate) as a basis (PET copolymer), which is modified with components Less than 20% diacid and / or modified with less than 10% diol component, compared to 100% diac component by mole and 100% diol component by mol 1 0. According to claim 8, where the organic gas barrier additive is The selection came from a group consisting of ester, dieter, amade, diadmeat, polyamide, imade, diode, polyimide, Carbon-based ester, non-carbon-based ester and Non-carbon-based polyester, alcohols, di-alcohols, polyalcohols and reactive compounds to open the ring 1 1. Containers according to claim 8, where additives increase gas barrier. The organic type is Compound with the chemical formula RIOOC-AR-COOR2, where AR is chosen from a group consisting of Phenylene and naphthalene and R1 and R2 are chosen from a group consisting of 1 to 10 carbon alkyl groups, phenyl phenyls and 1 naphthyl groups 2. Containers according to claim 8, where organic gas enhancement additives are Compound with the chemical formula RIOOC-AR-COOR2, where AR is chosen from a group consisting of Phenylene and naphthalene and R1 and R2 are selected from 1 to 6 carbon alkyl groups, phenyl and 1 naphthyl groups. Contain according to claim 8, where organic gas-boosting additive is Compounds selected from groups containing dimethyl terephthalate, dimethyl isophthalate, 2,6-dimethyl naphthalate, diethyl merephthalate. And diethylisophthalate 1 4. Containers according to claim 8, where the PET copolymer is contained in the polymer mixture in Content from approximately 99.99% to approximately 90% by weight of polyester mixtures and additives to enhance organic gas barrier is contained in the polyester mixtures in volumes from Approximately 0.01% to approx. 10% by weight of 15 containers of polyester mixtures pursuant to claim 1, where the polyester mixtures are further incorporated. Reactivators of condensed polymerization catalysts for sensitivity reduction. The reaction of the remainder of the catalyst with the polyester 1 6. Containers according to claim 15, where the agent eliminates the reactivity of the catalyst. The condensed polymers are present in polyethylene mixtures in amounts from approximately 50 parts per million to approximately 500 parts per million 1 7. Containers according to claim 1, where Containers are containers that are rigid, rigid from the casting Ejector with a pull clamp that includes a base, an open mouth part. And the body that extends from the base to Open mouth part 1 8. Containers according to claim 17 are suitable for use in the production of prepackaged beverages 1. 9. Methods for producing containers with increased gas barrier include the process of : Mixing of polyester with additives to increase the reactive organic gas barrier to Forms a polyester mix with IV values 0.65 dl / g to 1.0 dl / g. Polyester is produced by using At least one type of condensed polymerization catalyst, selected from a group of It consists of metals groups 3, 4, 13 and 14 of the periodic table and includes the rest of the catalyst. The residual reaction in the polyester from the formation of the polyester. The rest of the catalyst Include at least some of the first condensed polymerization catalyst. At least one of a kind; And the formation of polyester mixtures into containers 2 0. Method of claim 19 where the mixing process is further included. Procedures of: heating with enough Lysters in solid form to melt free-volume polyester; The addition of additives to increase the organic gas barrier in the polyester; And mixing of additives to increase the organic gas barrier to molten polyester Under the condition that at least some of the additive to enhance the organic gas barrier will Remaining without reacting with polyester And contained in the free volume of polyesters. 2 1. Method of claim 19, where the container formation process consists of casting. Stretched blow molding 2 2. Methods of claim 19 where the process of container formation includes: Cast polyester mixtures as the lead form of the container. And then make a blow molding that has Adhesion of lead pattern 2 3. Method according to claim 19 where the polyester mixtures have IV values from approximately 0.70 dl / g to approximately 0.86 dl / g 2 4. Clause 19, where the polyester mixtures have IV values from approximately 0.75 dl / g to approximately 0.86 dl / g. 2 5. Clause 19 method at Where one condensed polymerization catalyst At least one species was chosen from a group consisting of titanium, aluminum, germanium and gallium 2. 6. The method of claim 19 was further included. The second condensation, selected from a group containing cobalt, antimony, zinc, manganese, magnesium, cesium, calcium and cadmium. The second condensed polymerization catalyst is available in 3 parts per million of polyester mixtures of polyester mixtures 2 7. Method of claim 19 where the polyester has condition parameters. First solubility and free volume and additive, organic gas barrier pool has parameters of second solubility, with at least some of the additive does not react with polyester. And contained in Free volume of polyester The second dissolution parameter is not greater than 20%, less than or greater than the first dissolution condition parameter 2 8. Method according to claim 19, where polyesters are present in polyethylene mixtures. Esters in the amount of approximately 99.99% to approximately 90% by weight of the polyester mixture And additives to Increased organic gas barrier is contained in the polyester mixtures in the amount from approximately 0.01% to approximately 10% by weight of the polyester mixture 2. 9. Methods according to the claim. 19 where the polymer is composed of a copolymer with a basic poly (ethylene terephthalate) (PET copolymer) 3 0. Method for claim 29, where the polymer is composed of a polyethylene (terephthalate) copolymer (PET copolymer Diol components), which are modified with less than 20% diol components and / or less than 10% diol-converted with 100% diol components, with 100% diol components. % By mole 3 1. Method according to claim 29, where organic gas barrier additive is Choose from a group consisting of esters, diasters, adders, polyamides, lipsticks, dieters, polyimides, asters that Carbon-based, non-carbon-based di ester and Non-carbonized polyester, alcohols, di-alcohols, poly-alcohols and reactive compounds to open ring 3. 2. Method according to claim 29, where organic gas barrier additive is Compound with the chemical formula RIOOC-AR-COOR2, where AR is chosen from a group consisting of Phenylene and naphthalene and R1 and R2 are chosen from a group containing 1 to 10 carbon alkyl groups, phenyl groups, and 3 naphthyl groups. 3. Method according to claim 29, where organic gas barrier additive is Compound with the chemical formula R1OOC-AR-COOR2, where AR is chosen from a group consisting of Phenylene and naphthalene and R1 and R2 are chosen from a group consisting of 1 to 6 carbide alkyl groups, phenyl groups and 3 naphthyl groups. 4. Method according to claim 29, where organic gas barrier additive is Compounds selected from groups containing dimethyl terephthalate, dimethyl isophthalate, 2,6-dimethyl naphthalate, diethyl terephthalate. And diethylisophthalate 3 5. Method according to claim 29, where the PET copolymer is contained in the polymer mixture in amounts from approximately 99.99% to approximately 90% by weight of the polyester mix. Tyr And additives to Increased organic gas barrier is present in polyester mixtures in amounts from approximately 0.01% to approximately 10% by weight of the polyester 3 mixture. 6. Method according to claim 19, where the mixing process is further compounded by mixing. Reactivators of condensed polymer catalysts to polymer mixtures for reducing the reactivity of the remainder of the catalyst to polyas. Stere 3 7. Method according to claim 36, where the agent eliminates the reactivity of the catalyst. Condensed polymers are present in polyethylene mixtures in amounts from approximately 50 parts per million to approximately 500 parts per million 3. 8. Means according to claim 19, where containers are rigid containers from blow molding that There is an extension that includes a base, an open mouth part. And the body that extends from the base to the section Open-ended mouth And the process of forming a polyester mixture into a combined container With stretched blow molding of a polyester 3 compound 9. Method for claim 38, where containers are suitable for use in the production of packaged beverages.