The invention relates to ethylene polymers that are modified by ionizing radiation, prior to article formation, at a temperature less than the crystalline melt temperature and preferably under ambient atmosphere, as well as articles made from said polymers. The irradiated ethylene polymers exhibit
The invention relates to ethylene polymers that are modified by ionizing radiation, prior to article formation, at a temperature less than the crystalline melt temperature and preferably under ambient atmosphere, as well as articles made from said polymers. The irradiated ethylene polymers exhibit enhanced melt strength, tensile strength, impact resistance, tear strength, adhesion to polar substances and thermal stability, decreased elongation, and lower melt flow index, but are easily processed and converted into and onto articles by conventional technologies including injection molding, extrusion, film and bottle blowing and powder coating.
대표청구항▼
What is claimed is: 1. A method of producing a feed stock comprising a modified polyethylene for use in a process for forming an artifact, film or coating comprising the following steps: (i) selecting a polyethylene having a crystalline phase and an amorphous phase, and where said polyethylene is a
What is claimed is: 1. A method of producing a feed stock comprising a modified polyethylene for use in a process for forming an artifact, film or coating comprising the following steps: (i) selecting a polyethylene having a crystalline phase and an amorphous phase, and where said polyethylene is a high-density polyethylene with a density ranging from 0.945 to 0.970 g/cm3; (ii) imparting partial crosslinking, long chain branching and/or oxidation to the polyethylene by subjecting the polyethylene to a dose of ionizing radiation, where said dose is applied (a) when the polyethylene is at a temperature where both the crystalline and amorphous phases are present and (b) while the polyethylene is in an oxygen-containing atmosphere; and iii) adding one or more additives to the polyethylene after irradiation through a masterbatch. 2. The method of claim 1 where the total concentration of additives in the composition after irradiation ranges from 0.01 to 0.4 weight percent. 3. The method of claim 1 where the only additives added to the polyethylene after irradiation are antioxidants. 4. An artifact, at least one part of which is formed from a feed stock composition comprising a polyethylene irradiated by a method comprising the following steps: (i) selecting a polyethylene having a crystalline phase and an amorphous phase; (ii) imparting partial crosslinking, long chain branching and/or oxidation to the polyethylene by subjecting the polyethylene to a dose of ionizing radiation, where said dose is applied (a) when the polyethylene is at a temperature where both the crystalline and amorphous phases are present and (b) while the polyethylene is in an oxygen-containing atmosphere, and where the gel fraction of the polyethylene, after irradiation, ranges from 0.01 to 8%, by weight; and iii) optionally adding additives to the polyethylene after irradiation; where said artifact is a coated polar substrate and where said coating comprises an irradiated blend of linear low density polyethylene and high density polyethylene. 5. The artifact of claim 4, where said polar substrate is a metal substrate. 6. An artifact, at least one part of which is formed from a feed stock composition comprising a polyethylene irradiated by the method comprising the following steps: (i) selecting a polyethylene having a crystalline phase and an amorphous phase, and where said polyethylene is a high-density polyethylene with a density ranging from 0.945 to 0.970 g/cm3; (ii) imparting partial crosslinking, long chain branching and/or oxidation to the polyethylene by subjecting the polyethylene to a dose of ionizing radiation, where said dose is applied (a) when the polyethylene is at a temperature where both the crystalline and amorphous phases are present and (b) while the polyethylene is in an oxygen-containing atmosphere; and iii) optionally adding additives to the polyethylene after irradiation; where said artifact is a molded artifact made by injection molding, blow molding, rotational molding or other molding methods. 7. An artifact, at least one part of which is formed from a feed stock composition comprising a polyethylene irradiated by the method comprising the following steps: (i) selecting a polyethylene having a crystalline phase and an amorphous phase, and where said polyethylene is a blend of high-density polyethylene with a density ranging from 0.945 to 0.970 g/cm3 and linear low density polyethylene (ii) imparting partial crosslinking, long chain branching and/or oxidation to the polyethylene by subjecting the polyethylene to a dose of ionizing radiation, where said dose is applied (a) when the polyethylene is at a temperature where both the crystalline and amorphous phases are present and (b) while the polyethylene is in an oxygen-containing atmosphere; and iii) optionally adding additives to the polyethylene after irradiation; where said artifact is a coated polar substrate. 8. The artifact of claim 7, where said polar substrate is a metal substrate.
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