This invention comprises a film useful as an adhesive, a composition useful to make the film, and a laminate comprising the film contiguous with at least one metal substrate, at least one foam substrate or combination thereof. The composition comprises (a) at least one anhydride grafted olefin polym
This invention comprises a film useful as an adhesive, a composition useful to make the film, and a laminate comprising the film contiguous with at least one metal substrate, at least one foam substrate or combination thereof. The composition comprises (a) at least one anhydride grafted olefin polymer, (b) at least one high density polyethylene, and (c) at least one elastomer which preferably has a tensile elongation at break of at least about 585%, a density of at most about 0.900 g/cm3 or a combination thereof. The anhydride grafted olefin polymer or combination thereof is preferably present in an amount of from about 20 to about 40 weight percent, the high density polyethylene or combination thereof is preferably present in an amount of from about 40 to about 60 weight percent, and the elastomer or combination thereof is preferably present in an amount of from about 17 to about 30 weight percent. Each anhydride grafted olefin polymer is independently most preferably a maleic anhydride grafted high density polyethylene. The high density polyethylene preferably has a melt index at most about 30 dg/min. The elastomer is preferably a substantially linear ethylene polymer or olefin block copolymer.
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1. An adhesive film comprising (a) from 20 to 40 weight percent of at least one anhydride grafted polyolefin, (b) from 40 to 60 weight percent of at least one HDPE having a density of from about 0.950 to about to about 0.965 g/cm3 and (c) from 15 to 30 weight percent of at least one elastomer having
1. An adhesive film comprising (a) from 20 to 40 weight percent of at least one anhydride grafted polyolefin, (b) from 40 to 60 weight percent of at least one HDPE having a density of from about 0.950 to about to about 0.965 g/cm3 and (c) from 15 to 30 weight percent of at least one elastomer having a combination of a tensile elongation at break of at least about 585% as determined by the procedures of ASTM D822, and a density of at most about 0.900 g/cm3, wherein the elastomer is a substantially linear ethylene polymer or olefin block copolymer or combination thereof, together the anhydride grafted polyolefin, HDPE and elastomer or combination of each are at least 85 weight percent of the film, and the weight percentages are based on the weight of the polymers in the film. 2. The film of claim 1 wherein each anhydride grafted polyolefin is a MAH-g-HDPE. 3. The film of claim 1 wherein the olefin block copolymer: (a) has a Mw/Mn from about 1.7 to about 3.5, at least one melting point, Tm, in degrees Celsius, and a density, d, in grams/cubic centimeter, wherein the numerical values of Tm and d correspond to the relationship: Tm>−2002.9+4538.5(d)−2422.2(d)2; or(b) has a Mw/Mn from about 1.7 to about 3.5, and is characterized by a heat of fusion, ΔH in J/g, and a delta quantity, ΔT, in degrees Celsius defined as the temperature difference between the tallest DSC peak and the tallest CRYSTAF peak, wherein the numerical values of ΔT and ΔH have the following relationships: ΔT>−0.1299(ΔH)+62.81 for ΔH greater than zero and up to 130 J/g,ΔT≧48° C. for ΔH greater than 130 J/g, wherein the CRYSTAF peak is determined using at least 5 percent of the cumulative polymer, and if less than 5 percent of the polymer has an identifiable CRYSTAF peak, then the CRYSTAF temperature is 30° C.; or (c) is characterized by an elastic recovery, Re, in percent at 300 percent strain and 1 cycle measured with a compression-molded film of the ethylene/α-olefin interpolymer, and has a density, d, in grams/cubic centimeter, wherein the numerical values of Re and d satisfy the following relationship when ethylene/α-olefin interpolymer is substantially free of a cross-linked phase: Re>1481−1629(d); or(d) has a molecular fraction which elutes between 40° C. and 130° C. when fractionated using TREF, characterized in that the fraction has a molar comonomer content of at least 5 percent higher than that of a comparable random ethylene interpolymer fraction eluting between the same temperatures, wherein said comparable random ethylene interpolymer has the same comonomer(s) and has a melt index, density, and molar comonomer content (based on the whole polymer) within 10 percent of that of the ethylene/α-olefin interpolymer; or(e) has a storage modulus at 25° C., G′(25° C.), and a storage modulus at 100° C., G′(100° C.), wherein the ratio of G′(25° C.) to G′(100° C.) is in the range of about 1:1 to about 9:1. 4. The film of claim 1 wherein at least one anhydride grafted polyolefin polymer has at least 1 of the following: (a) a melting point, determined by Differential Scanning Calorimetry (DSC), of 125 ° C. to 135° C.;(b) a melt index as determined by the procedures of ASTM D1238, condition 190 ° C./2.16 Kg, of 2 to 30 dg/min; or(c) a graft content of 0.5 to 3 percent by weight. 5. The film of claim 1 wherein at least one HDPE has at least one of (a) a melting point, determined by Differential Scanning Calorimetry (DSC), of 125° C. to 135° C.; or (b) a melt index as determined by the procedures of ASTM D1238, condition 190° C./2.16 kg, of 2 to 30 dg/min. 6. The film of claim 1 wherein at least one elastomer has at least 1 of (a) a tensile elongation at break of 200 to 2000 percent as measured by the procedures of D-882;(b) a melting point, determined by Differential Scanning Calorimetry (DSC), of 55° C., to 130° C.; or(c) a melt index as determined by the procedures of ASTM D1238, condition 190° C./2.16 Kg, 2 to 30 dg/min. 7. The film of claim 1 wherein the film is of a composition that at a thickness of about 0.0645 mm would have at least 1 of the following: (a) a stress at yield MD of 10 to 20 MPa;(b) a strain at yield MD of 10 to 20 MPa;(c) a toughness MD of 90 to 160 MPa;(d) a 1% secant modulus MD of 300 to 500 MPa;(e) a melt flow rate of 1.5 to 30 dg/min; or (f) a DSC peak between 125 and 135° C. 8. A laminate comprising the film of claim 1 and at least one substrate selected from a metal or a foam or a combination thereof. 9. The laminate of claim 8 wherein the laminate has at least one of the following: (a) a peel strength at maximum load of 450 to 1000 N;(b) a peel strength at average load of 400 to 900 N;(c) a hanging weight failure temperature of at least about 130° C. 10. A process of preparing an adhesive film composition comprising steps of (a) supplying a first component, from 20 to 40 weight percent of at least one anhydride graft olefin polymer, (b) supplying a second component, from 40 to 60 weight percent of at least one HDPE having a density of from about 0.950 to about to about 0.965 g/cm3, (c) supplying third component, from 15 to 30 weight percent of at least one elastomer having a combination of a tensile elongation at break of at least about 585% as determined by the procedures of ASTM D822, and a density of at most about 0.900 g/cm3, wherein the elastomer is a substantially linear ethylene polymer or olefin block copolymer or combination thereof; and, (d) admixing the first, second and third components and optional additives; wherein together the anhydride grafted polyolefin, HDPE and elastomer or combination of each are at least 85 weight percent of the film, and the weight percentages are based on the weight of the polymers in the film. 11. A process of preparing an adhesive film comprising steps of (a) supplying a first component, from 20 to 40 weight percent of at least one anhydride graft olefin polymer, (b) supplying a second component, from 40 to 60 weight percent of at least one HDPE having a density of from about 0.950 to about to about 0.965 g/cm3, (c) supplying third component, from 15 to 30 weight percent of at least one elastomer having a combination of a tensile elongation at break of at least about 585% as determined by the procedures of ASTM D822, and a density of at most about 0.900 g/cm3; and, wherein the elastomer is a substantially linear ethylene polymer or olefin block copolymer or combination thereof; (d) admixing the first, second and third components and optional additives; and, (e) casting the resulting admixture into a film wherein together the anhydride grafted polyolefin, HDPE and elastomer or combination of each are at least 85 weight percent of the film, and the weight percentages are based on the weight of the polymers in the film. 12. A process of making a laminate comprising steps of (a) supplying a film according to claim 1; (b) positioning a layer of the film directly adjacent to at least one layer metal on one side and directly adjacent to a polymer foam on the other (b) applying sufficient heat or other energy to result in softening of the film with simultaneous application of sufficient pressure to press polymer into intimate contact with metal and foam. 13. The film of claim 3 wherein at least one anhydride grafted polyolefin polymer has at least 1 of the following: (a) a melting point, determined by Differential Scanning Calorimetry (DSC), of 125 ° C. to 135° C.;(b) a melt index as determined by the procedures of ASTM D1238, condition 190 ° C./2.16 Kg, of 2 to 30 dg/min; or(c) a graft content of 0.5 to 3 percent by weight. 14. The film of claim 3 wherein at least one HDPE has at least one of (a) a melting point, determined by Differential Scanning Calorimetry (DSC), of 125° C. to 135° C.; or (b) a melt index as determined by the procedures of ASTM D1238, condition 190° C./2.16 kg, of 2 to 30 dg/min. 15. A laminate comprising the film of claim 3 and at least one substrate selected from a metal or a foam or a combination thereof.
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