TH44189A - Multi-layer thermoplastic construction - Google Patents

Abstract

DC60 (10/07/51) A multilayer structure based on a thermoplastic polymer. Which has been avoided The use of vinyl chloride polymers and plasticizers was significantly low and would consist of at least 3 layers - the first layer (A) comprising at least 60%. By the weight of polyolefins like At least one type, capable of controlling crystallization, has been defined to contain at least 90 percent ethylene, propylene or butene and a softening temperature of less than 121 ° C. The thickness of the first layer will be at least 20 percent of the total thickness of the structure, and the first layer will have a modulus of elasticity less than 350 Mpa - the second layer (B) is positioned between the first layers. (A) and the third (C), comprising at least 40% by weight of at least one polyolefin that can control crystallization, the second layer has a low overall softening temperature. Over 121 ° C - Third class (C), which comprises at least 50% by weight of polyolefins. At least one of which has the ability to produce crystals that can be controlled. Third layer thickness Will be at values from equal to 5 to 30 percent of the total thickness of the structure. And the third floor will have The modulus of elasticity which is less than in the first layer. A multi-layered structure based on a thermoplastic polymer. The use of vinyl chloride, polymers and low molecular weight plasticizers was significantly avoided. The first layer (A) consists of at least 60% by weight of at least one polyolefin capable of controlling crystallization, which is assigned to It is at least 90% ethylene, propylene or butene composite and has a softening temperature of less than 121 ° C. The thickness of the first layer is 20% of the total thickness of the structure. At least And the first layer has a modulus of elasticity less than 350 Mpa - the second layer (B) is positioned between the first (A) and third (C) layers, comprising at least 40 percent. By weight of at least one polyolefin that can control crystallization. The second layer will have an overall softening temperature of less than 121 ° C - the third layer (C) comprises at least 50% by weight of at least one polyolefin capable of A crystal that can be controlled The third layer thickness will range from 5 to 30 percent of the total thickness of the structure. And the third floor will have The modulus of elasticity which is less than in the first layer.

Claims (7)

1.Multilayer structure consisting of thermoplastic polymers, whose structure contains vinyl chloride polymers and plasticizers with a molecular mass of less than 1000 not more than 0.1% by The weight of the entire structure, such a multistory structure includes At least 3 layers and includes - a first layer comprising at least 60 percent, by weight of the total first layer, of at least one polyolefin capable of crystallization capable of It has been established to contain at least 90 percent of the compound selected from the polypropylene, polypropylene, or butene group by weight of at least one polyolofin total weight. Such kind The softening temperature is less than 121 ° C, where the first layer is at least 20 percent of the total thickness of the multilayer structure. And the first layer has a modulus of elasticity less than 350 Mpa - the second layer, positioned between the first layers. And the third, where the second layer comprises at least 40 percent by weight of the total weight of that second layer, of at least one polyolefin that can control crystallization. And a total softening temperature of less than 121 ° C - the third class comprising at least 50%, by weight of the total weight of that third layer, of at least one polyolefin which It has a controllable crystallinity, and the thickness ranges from 5 to 30% of the total thickness of the structure and the third layer has a modulus of elasticity which is less than the modulus of elasticity of The first layer, the third of which is the sealing layer, where, given overall consideration, the third layer shows a melting temperature greater than 121 ° C and the third is included. At least one type of polymer 2. Multilayer structure according to Clause 1, in which polyolefins with a controllable crystallinity capability are copolymer. 3.Multilayer structure according to claim 1 or 2, in which a polyolefin with a controllable crystallinity will be a copolymer consisting of at least 90 percent, By weight of total copolymer weight, of compounds selected from groups containing ethylene, propylene and butene and less than 10%, by weight of copolymer weight. All, of one type or another, selected from a group consisting of C5 to C10 alkanes and carboxylic acids and esters. Holds one to three rights where the first layer, which is considered as a whole, will show a melting temperature greater than 121 ° C. 5. The multi-layer structure of any of Clause 1 to 4. The first co-constituent polymers were specially selected from the polyolefin group. Which has the ability to produce crystals that can be controlled And highly amorphous and non-crystalline polyolefins. 6. Multi-layered structures according to claims 1 to 5. Which continues to include one or more outer layers It consists of one or more thermoplastic polymers and is placed on the first floor. Or third layer on the side opposite the second floor 7. Multi-layer structure according to Clause 1 to 6, any of The surface layer which is on the first layer Will consist of at least one type of cyclolefin copolymer or PP homopolymer mixed with SEBS 8. The multilayer structure of Claims 1 to 7. One The surface layer which is on the first layer It is composed of a cyclolefin copolymer as a mixture containing SEBS and VLDPE 9. Multilayer structure according to Claims 1 to 8. The structure has a haze / thickness ratio of less than 10% / 200 μm 1 0. Products obtained from a multilayer structure in accordance with Claims 1 to 9, in which the product consists of one type of Tube, film or container 1 1. Products formed by welding (welding) the structure according to claims 1 to 9, any one With the product itself Or with another structure having an outer layer containing the same mixture as the third layer 1 2. Intact air-tight container obtained from the product pursuant to claim 11, which consists of at least one permanent welding element, and will be split in at least two. (compartment) by easy peel-off welding part 1 3. Methods for collecting fluids to be treated and / or to be sterilized separately. And to be blended immediately before use Which includes Sealing of the said fluid in airtight container is not per claim 12 1. 4. Method of container manufacturing according to Clause 12, which includes: Formation of easy peel-off welds At a temperature lower than that used for the formation of permanent welds at least 5 ° C 1 5.The method in accordance with Clause 14 in which the formation of permanent welds will be performed. At temperatures between 125 and 160 ° C and a simple peel-off weld formation is performed. At temperatures between 95 and 140 degrees Celsius 1 6. A multi-layered structure that incorporates At least three layers That consists of thermoplastic polymers And which contains vinyl chloride polymers and plasticizers with a molecular mass of less than 1000 not more than 0.1%, by weight of the total weight of those three layers, which the structural formation has The total thickness is between 100 and 400 μm, whereby the structure yields the following results at the same time - a modulus of elasticity less than 350 Mpa - the amount of compound that can be extracted with heparin. The boiling gas is less than 5 percent, and the haze / thickness ratio is less than 6 percent / 200 μm 1. 7. Manufacturing method of multi-layer structure based on thermoplastic polymer. And which contain vinyl chloride polymers and plasticizers with a molecular mass of less than 1000 not more than 0.1%, by weight of the entire multilayer structure, and comprising at least 3 layers Floor, the above method includes Arrangement of the first floor This includes at least 60%, by weight of the gross weight of such a first layer, of at least one polyolefin that has a controllable crystallinity that is assigned to Has been assembled with Compounds selected from the group Containing at least 90% ethylene, propylene and butene, by weight of the total weight of at least one polyolefin, and to have a lower softening temperature. 121 ° C. The thickness of the first layer will be at least 20 percent of the total thickness of the structure. And the first layer has a modulus of elasticity less than 350 Mpa. The second arrangement, which is positioned between the first layer And the third layer, which comprises at least 40 percent, by weight of the total weight of that second layer, of at least one polyolefin that has a controllable crystallinity, The second layer has an overall softening temperature of less than 121 degrees Celsius. This includes at least 50%, by the weight of the aforementioned third layer, of at least one polyolefin. Which has a controllable crystallinity, the third layer thickness ranges from 5 to 30 percent of Total thickness of the structure And the third layer has the modulus of elasticity which is less than the modulus of elasticity of the first. Co-extrusion of three layers; And the introduction of the extrusion layer into at least one extraction condition, with at least 100% at the temperature between the highest crystallinity of the polyolefin capable of producing Controllable crystal (Tc) and Tm + 15 ° C, where Tm represents temperature. Lowest melt of polyolefin And enters at least one dimensionally stable dormancy for at least 10 seconds occurring in the same temperature range. And enter the state of sample cooling immediately until the temperature is less than the maximum crystallization temperature Tc