TH59709B - Thermoplastic Polyurethane, a non-halogen flame retardant. - Google Patents

Abstract

DC60 (24/08/15) The invention discloses a thermoplastic polyurethane (TPU) compound that is a retardant. Combustible with a flame retardant prefabricated package consisting of organo-phosphinate components, organo-phosphate components. And polyhydric alcohol, a component that is a retarder Combustible, there may be approximately 5 to approximately 40% phosphinate compounds by weight; Phosphate compounds range from 5 to approximately 20% wt and polyhydric alcohols range from 0.1 to approximately 15% wt. Vs total weight of TPU mixtures. TPU compounding and cable making And the cables using TPU mixtures as the sheath for making the wires and cables.The TPU mixtures exhibit excellent performance Excellent flame retardant with the Limited Oxygen Index and / or the UL 94 Vertical Burn test. The invention revealed a flame retardant thermoplastic polyurethane (TPU) compound. Combustible with a flame retardant prefabricated package consisting of organo-phosphinate components, organo-phosphate components. And polyhydric alcohol, an additive component Fire may contain approximately 5 to approximately 40% phosphinate compounds by weight; Phosphate compounds range from 5 to approximately 20% wt and polyhydric alcohols range from 0.1 to approximately 15% wt. Vs total weight of TPU mixtures. TPU compounding and general electric wire and cable making use TPU mixtures as sheaths for making electrical cables and wires.TPU mixtures exhibit excellent flame retardant performance with double testing. Limited Oxygen Index and / or UL 94 Vertival Burn test.

Claims (4)

1. Thermoplastic Mixture Unique flame retardant polyurethane In a good smelting process consisting of (a) at least one thermoplastic polyurethane polymer (b) organic non-halogenated flame retardant component. First kind Approximately from 5 to approximately 40% by weight, including phosphinate (c) components, a second type of organic non-halogenated flame retardant. Approximately from 5 to approx. 20% by weight, consisting of phosphinate compounds and (d) a second type of organic non-halogenated flame retardant component. Approximately from 0.1 to approx. 15% by weight selected from Penta Arylthritol and DipentaArylthritol, where the wt% versus total weight of thermo mixtures. Polyurethane plastic and where thermoplastic The flame retardant polyurethane has a VO Rating of 1.90 mm as measured according to the UL 94 Vertical burn test and the Limited Oxygen Index value is at least approximately 35 as measured. Compliant with ASTM D2863 standards. 2. Compound thermoplastic. Polyurethane is the flame retardant of claim 1 where in (b) the phosphinate compound is approximately 15 to approximately 25% by weight. 3. Mixture Thermoplastic Polyurethane is the flame retardant of claim No. 1, where in (c) the phosphinate compound is approximately 5 to approximately 10% by weight. 4. Mixture Thermoplastic Polyurethane as a flame retardant of claim 1, where in (d) the compound pentaaryylthritol or dipentaarylthritol has It is approximately from 2.5 to approximately 10% by weight. 5. Thermoplastic mixtures are flame retardants of claim No. 1 where (a) thermoplastic polyurethane. Polymers are selected from polyesters, polyurethane, poly-ether polyurethane, polycarbonate, polyurethane and their mixtures. 6. Thermoplastic compound, the flame retardant of claim No. 5, where (a) thermoplastic polyurethane polymers is polyether polyurethane. P.7 Thermoplastic compound that is the flame retardant of claim 1, which is supplemented by (e) an inorganic flame retardant component, approximately from 0 to approximately 5%. By weight versus total weight of thermoplastic polyurethane mixtures 8. Thermoplastic mixtures are flame retardants of Clause 7, where in clause (e) the components are Inorganic flame retardants, if available, selected from slick rock starch, ammonium Phosphate, Ammonium Polyphosphate, Ammonium Pentaborate, Zinc Borate, Calcium Carbonate, Antimony Oxide, Soil, Montmorillonite Clay And mixtures of substances Compose them. 9. Thermoplastic mixtures. Flame retardant polyurethane consisting of (a) thermoplastic polyurethane polymers and (b) flame retardant prefabricated kits, including: (i) a non-halogenated non-halogenated flame retardant component. The first contains a phosphinate compound (ii), a non-halogenated non-halogenated flame retardant component. Two, consisting of an organic phosphate compound (iii), a non-halogenated non-halogenated flame retardant component. Three without phosphate Where a flame retardant package is available in sufficient quantities to meet A specification that is a scheduled flame retardant to at least one thermoplastic polyurethane-polyurethane mixture 1 0. Thermoplastic Mixture Polyurethane is the flame retardant of claim 9, where at least one of the specified flame retardant characteristics is the minimum limited oxygen index of approximately 35 as measured. Compliant with ASTM D-2863 1. 1. Mixture of thermoplastic. The flame retardant polyurethane of claim 9, where at least one of the specified flame retardant characteristics is a V-0 flame rating at a thickness of 75 mils. (1.90 mm) as measured. Conforms to UL 94 1 2. Thermoplastic Mixture. The flame retardant polyurethane of claim No. 9, where the flame retardant prefabrication package includes additionally to the flame retardant component. Inorganic type 1 3. Thermoplastic mixtures are flame retardants of claim No. 9, where in clause (a) thermoplastic polyurethane polymers. It is selected from polyesters, polyurethane, polyether polyurethane, polycarbonate, polyurethane and their mixtures.1 4. Thermoplastic compound, the flame retardant of claim 13, where (a) thermoplastic polyurethane polymers is polyether polyurethane 1. 5. Thermoplastic Mixture Polyurethane is the flame retardant of claim 9, wherein (b) (iii) is a non-halogenated third type of non-halogenated flame retardant compound. Selected from Penta Arylthritol and Dipenta Arylthritol 1 6. Polyurethane mixtures as a flame retardant of Clause 9, where: In clause (b), the flame retardant package includes (iv) the inorganic flame retardant component 1 7. The flame retardant package includes (a). The first non-halogenated flame retardant component, which made up The compound (b) is a second type of non-halogenated non-halogenated flame retardant component. It contains organic phosphate, and (c) a third non-halogenated flame retardant component that Includes polyhydric alcohol 1 8. The flame retardant package of claim 17, which is supplemented with (d) the inorganic flame retardant component 1 9. The flame retardant package of claim 18, wherein the It is an inorganic flame retardant, selected from slurry starch, ammonium phosphate, ammonium polyphosphate, calcium carbonate, antimony oxide, soil, monon 2 0. The flame retardant preset of Clause 17 wherein (c) poly-hydric alcohol was selected from Penta Arylthritol and Penta Arylthritol 2 1. Method for obtaining a flame retardant that is a thermoplastic compound. Polyurethane, which Included A flame retardant prefabrication compound containing (a) The first non-halogenated non-halogenated flame retardant, consisting of phosphate-phenate compounds, (b) a second non-halogenated flame retardant compound. Which consists of substances Contains organic phosphate and (c) non-halos flame retardant compounds. The third genesis It is composed of polyhydric alcohol and thermoplastic polyurethane polymers where flame retardant prefabrication packages are available in sufficient quantities to meet Qualification of a designated flame retardant to at least one thermoplastic polyurethane mixture 2. 2. Methods of making claim No. 21, where applicable, the substance characteristic. Flame retardant At least one specification consisted of at least a limited oxygen index of approximately 35 as measured in accordance with ASTM D-2863 2 3. Method of Clause 21 Clause 21 wherein the retardant characteristics were specified in accordance with ASTM D-2863 2. On fire At least one specification consists of a V-0 flame rating at a thickness of 75 mils (1.90 mm), as measured, in accordance with UL 94 2 4. Procedure of claim 21. Phosphate compounds are approximately 5 to 40% by weight, organic phosphate compounds are approximately 5 to 20% by weight and polyhydric alcohols are present. At a scale of approximately 0.1 to approximately 15% by weight, where the percentage by weight against the total weight of thermoplastic polyurethane mixtures 2 5. Method of application of claim 24, whereby the finished kit at As a total added flame retardant The inorganic flame retardant component is added to a range of approximately 0 to approximately 5% by weight compared to the weight of thermoplastic polyurethane mixture 2 6. Method of making of Claim 21, where the mixing process makes the extruder Double bolts 2. 7. Process of claim No. 26 where thermoplastic polyurethane mixtures are made into fine grains after being mixed. 2 8. Process for the production of thermoplastic polyurethane mixtures. Plastic module Polyurethane as an adhesive retardant Fire, which consists of a) mixing thermoplastic ingredients. Polyurethane, which contains substances in between Selected polymer reaction from hydroxyl terminated polyester, hydroxyl terminated polyether, hydroxyl tether Terminated Polycarbonate And mixtures of those compounds, polyisocyanates, and chain extenders in mixing equipment that can Thermoplastic polyurethane mixed with shear b) following point (a) by adding a flame retardant prefabrication to the mixing equipment. Where the flame retardant package includes the first non-halogenated flame retardant components, comprising approximately 5 to approximate levels of phosphinate compounds. 40% by weight; A component that is a non-halogenated flame retardant type that Two, which contain approximately 5 to 20% by weight phosphate compounds and a selected third type of non-halogenated flame retardant component. From the Penta-arylthritol and Dipenta-arylthritol levels contained approximately 0.1 to approximately 15% by weight, with the percentage by wt versus total weight of the mixture. Thermoplastic polyurethane flame retardant 2 9. Process for the production of electric wires and cables throughout the fire, which includes (a) extruding the insulating layer of a conductive polymer material. Go on the conductors At least one metal, and (b) extruding the flame retardant enclosures to cover the conductors of the metal At least one conductor is insulated. Where the enclosure is a thermoplastic polyurethane compound consisting of (i) at least one thermoplastic polyurethane polymer; (ii) a component of Organic non-halogenated flame retardant The first type, containing approximately 5 to 40% of phosphinate compounds by weight (iii), a non-halogenated organic flame retardant component. The second type, comprised of phosphate compounds approximately 0.1 to approximately 15% by weight, and (iv) a non-halogenated organic flame retardant component. The third type, which contains dipentaarylthritol, is approximately 0.1 to approximately 15% wt, with the wt percentage versus total weight of thermoplastic polyurethane mixtures. 3 0. Construction of electric wires and cables comprising (a) at least one metallic conductor provided that such conductors are insulated. With a non-conductive polymer material and (b) a flame retardant enclosure that completely covers the insulated metal conductors. At least one such conductor Where the enclosures are thermoplastic polyurethane mixtures consisting of (i) at least one thermoplastic polyurethane copolymer (ii) components that It is an organic non-halogenated flame retardant. The first type, consisting of approximately 5 to 40% phosphinate compounds by weight (iii), a non-halogenated organic flame retardant component. The second type, containing approximately 5 to 20% by weight phosphate compounds, and (iv) a non-halogenated organic flame retardant mixture. Type three, comprising dipenta arylthritol, approximately from 0.1 to approx. 15% w / w% w / w% relative to total weight of thermoplastic polyurethane mixtures at It is a flame retardant 3. 1. A molded product consisting of a thermoplastic compound. Polyurethane that is Flame retardant Where the mixture contains (a) at least one thermoplastic polyurethane polymer; (b) the first organic non-halogenated flame retardant component. Approximately from 5 to approximately 40% by weight It contains phosphinate compounds (c), a second type of organic non-halogenated flame retardant component. Approximately from 5 to approximately 20% by weight It consists of phosphate compounds and (d) a third type of organic non-halogenated flame retardant component. Approximately from 0.1 to approximately 15% by weight It was selected from Penta-arylthritol and Dipenta-arylthritol, where the percentage by weight versus total weight of thermoplastic polyurethane mixtures. 3 2. Thermoplastic Mixture Flame retardant polyurethane, which consists primarily of (a) thermoplastic polyurethane polymers with at least one polyether-based (b) component that It is the first organic non-halogenated flame retardant. Approximately from 15 to approximately 25% by weight It contains phosphinate compounds (c), a second type of organic non-halogenated flame retardant component. Approximately from 5 to approximately 10% by weight It contains phosphate (d), a third type of organic non-halogenated flame retardant component. Approximately from 2.5 to approximately 10% by weight This includes dipenta arylthritol and (e) an organic flame retardant component, approximately from 0 to approx. 5% by weight, consisting of slippery rock flour. Where the percentage by weight versus total weight of thermoplastic polyurethane mixtures 3 3. Thermoplastic Mixture The flame retardant polyurethane of claim 1, supplemented with approximately 0.05 to approximately 2.0% anoxidants by weight 3. 4. Thermoplastic Mixture The flame retardant polyurethane of claim 33, whereby the anthyoxidant is selected from hindered, phenol and dial kilate. Diphenilamine and their mixtures