Methods of making melt-bonded thermoplastic bags with tailored bond strength

We claim: 1. A method of forming a multi-layered thermoplastic bag with tailored bond strength of the melt bond between the layers of the bag, the method comprising: extruding a first thermoplastic layer of film; extruding a second thermoplastic layer of film, the second thermoplastic layer of film being incompatible with the first thermoplastic layer of film; joining the first thermoplastic layer of film directly to the second thermoplastic layer of film before a frost line area while each of the first and second thermoplastic layers of film remain in a melt state from the extruding; solidifying the joined first thermoplastic layer of film and second thermoplastic layer of film at the frost line area to form a melt-bonded film with a melt bond strength between the first thermoplastic layer of film and the second thermoplastic layer of film that is less than a weakest tear strength of the first thermoplastic layer of film and the second thermoplastic layer of film whereby forces acting on the melt-bonded film are first absorbed by breaking the melt bond between layers rather than, or prior to, tearing or otherwise causing failure of either one of the first and second layers of the melt-bonded film; regulating temperature during the solidifying to establish the frost line area; and forming the melt-bonded film into a thermoplastic bag. 2. The method as recited in claim 1 , wherein joining the first thermoplastic layer of film directly to the second thermoplastic layer of film comprises joining the first thermoplastic layer of film directly to the second thermoplastic layer of film outside of one or more extrusion dies used to form the first thermoplastic layer of film and the second thermoplastic layer of film. 3. The method as recited in claim 2 , wherein the extruding of the first and second layers further comprises: extruding the first thermoplastic layer of film and the second thermoplastic layer of film using a dual-ring die; forming the first thermoplastic layer of film into a first tubular stock; and forming the second thermoplastic layer of film into a second tubular stock inside of the first tubular stock. 4. The method as recited in claim 3 , wherein joining the first thermoplastic layer of film directly to the second thermoplastic layer of film comprises causing the second tubular stock to abut against the first tubular stock. 5. The method as recited in claim 1 , wherein the first thermoplastic layer of film comprises a polyethylene material. 6. The method as recited in claim 5 , wherein the first thermoplastic layer of film comprises linear low-density polyethylene. 7. The method as recited in claim 6 , further comprising varying a thickness of the first thermoplastic layer of film during the extrusion. 8. The method as recited in claim 7 , wherein varying the thickness of the film causes melt fracture of the first thermoplastic layer of film during extrusion. 9. The method as recited in claim 6 , wherein the second thermoplastic layer of film comprises polypropylene or polystyrene. 10. The method as recited in claim 6 , wherein the second thermoplastic layer of film comprises high density polyethylene with a first melt index that is one-fourth or less than a second melt index of the linear low-density polyethylene forming the first thermoplastic layer of film. 11. The method as recited in claim 1 , further comprising modifying the bond strength of the melt bond between the first thermoplastic layer of film and the second thermoplastic layer of film by intermittingly separating the first thermoplastic layer of film from the second thermoplastic layer of film at the melt bond. 12. The method as recited in claim 11 , wherein separating the first thermoplastic layer of film from the second thermoplastic layer of film comprises cold deforming the melt-bonded film. 13. The method as recited in claim 12 , wherein cold deforming the melt-bonded film comprises one or more selected from the group consisting of of ring rolling or SELFing. 14. A method of forming a multi-layered thermoplastic bag with tailored bond strength of the melt bond between the layers of the bag, the method comprising: extruding a first thermoplastic layer of film; extruding a second thermoplastic layer of film, the second thermoplastic layer of film being incompatible with the first thermoplastic layer of film; joining the first thermoplastic layer of film directly to the second thermoplastic layer of film before a frost line area while each of the first and second thermoplastic layers of film remain in a melt state from the extruding; solidifying the joined first thermoplastic layer of film and second thermoplastic layer of film at the frost line area to form a melt-bonded film with a melt bond strength between the first thermoplastic layer of film and the second thermoplastic layer of film that, when subjected to stress consistent with use as a liner for a trash receptacle, causes the first and second thermoplastic layers to at least partially delaminate from each other at the melt bond and thereby provide increased resistance to tear or puncture of the first and second layers due to energy absorption of the delaminating; regulating temperature during the solidifying to establish the frost line area; and forming the melt-bonded film into a thermoplastic bag. 15. The method as recited in claim 14 , wherein joining the first thermoplastic layer of film directly to the second thermoplastic layer of film comprises joining the first thermoplastic layer of film directly to the second thermoplastic layer of film outside of one or more extrusion dies used to form the first thermoplastic layer of film and the second thermoplastic layer of film. 16. The method as recited in claim 15 , wherein the extruding of the first and second layers further comprises: extruding the first thermoplastic layer of film and the second thermoplastic layer of film using a dual-ring die; forming the first thermoplastic layer of film into a first tubular stock; and forming the second thermoplastic layer of film into a second tubular stock inside of the first tubular stock, wherein joining the first thermoplastic layer of film directly to the second thermoplastic layer of film comprises causing the second tubular stock to abut against the first tubular stock.