Process for producing ultrasonic seal, and film structures and flexible containers with same

The invention claimed is: 1. A film structure comprising: a first multilayer film and a second multilayer film, each multilayer film comprising a backing layer and a seal layer; each seal layer is a monolayer comprising an ultrasonic sealable olefin-based polymer (USOP) that is an ethylene/octene plastomer, the USOP having the following properties: (a) a heat of melting, ΔHm, less than 130 J/g, (b) a peak melting temperature, Tm, less than 125° C., (c) a storage modulus in shear (G′) from 50 MPa to 500 MPa, as measured at a frequency of 10 rad/s at a temperature of 10° C., and (d) a loss modulus in shear (G″) greater than 10 MPa, as measured at a frequency of 10 rad/s at a temperature of 10° C.; each backing layer comprises biaxially oriented polypropylene (BOPP); the multilayer films arranged such that the seal layer of the first multilayer film is in contact with the seal layer of the second multilayer film; and an ultrasonic seal between the seal layers, the ultrasonic seal having a seal strength from 31 N/15 mm to 80 N/15 mm. 2. The film structure of claim 1 wherein the ultrasonic seal has a seal strength from 55 N/15 mm to 80 N/15 mm. 3. The film structure of claim 1 wherein each seal layer is a coextruded structure comprising a face layer, a core layer, and an inner layer; the face layer comprises the USOP that is an ethylene/octene plastomer; and the ultrasonic seal has a seal strength from 35 N/15 mm to 55 N/15 mm. 4. The film structure of claim 1 wherein the USOP has (a) a heat of melting, ΔHm, from 50 J/g to less than 130 J/g, (b) a peak melting temperature, Tm, from greater than 90° C. to less than 125° C., (c) a storage modulus in shear (G′) from 50 MPa to 350 MPa, as measured at a frequency of 10 rad/s at a temperature of 10° C., and (d) a loss modulus in shear (G″) from greater than 10 MPa to 40 MPa, as measured at a frequency of 10 rad/s at a temperature of 10° C. 5. A film structure comprising: a first multilayer film and a second multilayer film, each multilayer film comprising a backing layer and a seal layer; each seal layer is a monolayer comprising an ultrasonic sealable olefin-based polymer (USOP) that is an ethylene/octene plastomer, the USOP having the following properties: (a) a heat of melting, ΔHm, less than 130 J/g, (b) a peak melting temperature, Tm, less than 125° C., (c) a storage modulus in shear (G′) from 50 MPa to 500 MPa, as measured at a frequency of 10 rad/s at a temperature of 10° C., and (d) a loss modulus in shear (G″) greater than 10 MPa, as measured at a frequency of 10 rad/s at a temperature of 10° C.; each backing layer comprises poly(ethylene terephthalate) (PET); the multilayer films arranged such that the seal layer of the first multilayer film is in contact with the seal layer of the second multilayer film; and an ultrasonic seal between the seal layers, the ultrasonic seal having a seal strength from 35 N/15 mm to 70 N/15 mm. 6. The film structure of claim 5 wherein the ultrasonic seal has a seal strength from 37 N/15 mm to 55 N/15 mm. 7. The film structure of claim 5 wherein the second multilayer film is superimposed on the first multilayer film to form a common peripheral edge; and the ultrasonic seal is located along the common peripheral edge.