Continuous gluing process of an adhesive composition with a gluing nozzle having an extrusion die with a relaxation volume

The invention claimed is: 1. A continuous gluing process for continuous gluing of a film of substrate by making use of a gluing nozzle comprising an extrusion die for extrusion of an adhesive composition over a predetermined width, the extrusion die comprising a lower lip and an upper lip, the upper and lower lips extending parallel to one another so as to form a transverse channel for the longitudinal flow of the adhesive composition, the transverse channel extending longitudinally between: a supply opening for supplying the adhesive composition; and an extrusion outlet for extrusion of the adhesive composition; the channel comprising a concave relaxation volume of the adhesive composition between the supply opening and the extrusion outlet; and the process comprising: supplying an adhesive composition to the gluing nozzle with a flow rate, the adhesive composition having a viscous behaviour with a relaxation time period; adapting the relaxation volume of the die of the gluing nozzle to the relaxation time period and the flow rate of the supply of the adhesive composition, so that the relaxation volume of the die of the gluing nozzle is greater than the product of the relaxation time period and the flow rate of the supply of the adhesive composition; extruding the adhesive composition by making use of the gluing nozzle. 2. A gluing process according to claim 1 , wherein the upper and lower lips of the extrusion die extend parallel to one another with an adjustable spacing distance. 3. A gluing process according to claim 2 , wherein at the minimum spacing distance of the extrusion die, the extrusion outlet is closed, and the average thickness of the relaxation volume is greater than 0.75 mm. 4. A gluing process according to claim 1 , with the internal surfaces within the channel of the lower and upper lips of the extrusion die being chromium plated. 5. A gluing process according to claim 1 , wherein the transverse cross section of the concave relaxation volume of the extrusion die presents: a maximum thickness; upstream of the maximum thickness, a boundary curve with the upper lip and a boundary curve with the lower lip, both of which have radius of curvature greater than or equal to 50 mm; downstream of the maximum thickness, a boundary curve with the upper lip and a boundary curve with the lower lip, both of which are straight with a transition radius for connecting to the maximum thickness that is greater than or equal to 50 mm. 6. A gluing process according to claim 1 , wherein the transverse cross section of the concave relaxation volume of the extrusion die has a drop like shape with a semicircular portion oriented towards the supply opening and a triangular portion whose most acute apex is oriented toward the extrusion outlet. 7. A gluing process according to claim 1 , wherein the gluing nozzle for the continuous gluing of an adhesive composition as a film has a predetermined width, the gluing nozzle comprising: a supply opening for supplying the adhesive composition; a distribution zone for distributing the flow of adhesive composition from the supply opening across the width of the gluing nozzle; a restrictor bar for uniformly smoothing out the flow velocity front of the adhesive composition, over the width of the gluing nozzle after the distribution zone, and the extrusion die being arranged after the restrictor bar. 8. A gluing process according to claim 1 , wherein the gluing nozzle is within a system for gluing an adhesive composition that is connected to a supply of adhesive composition; the gluing system also comprising a film running path of a substrate film to be glued with the gluing nozzle without contact between the gluing nozzle and the substrate film. 9. A gluing process according to claim 8 , wherein the gluing system further comprises: a vacuum box in order to generate a depression between the gluing nozzle and the running path of the substrate film. 10. A gluing process according to claim 3 , with the internal surfaces within the channel of the lower and upper lips of the extrusion die being chromium plated. 11. A gluing process according to claim 10 , wherein the transverse cross section of the concave relaxation volume of the extrusion die presents: a maximum thickness; upstream of the maximum thickness, a boundary curve with the upper lip and a boundary curve with the lower lip, both of which have radius of curvature greater than or equal to 50 mm; and downstream of the maximum thickness, a boundary curve with the upper lip and a boundary curve with the lower lip, both of which are straight with a transition radius for connecting to the maximum thickness that is greater than or equal to 50 mm. 12. A gluing process according to claim 11 , wherein the transverse cross section of the concave relaxation volume of the extrusion die has a drop like shape with a semicircular portion oriented towards the supply opening and a triangular portion whose most acute apex is oriented toward the extrusion outlet. 13. A gluing process according to claim 12 , wherein the gluing nozzle is within a system for gluing an adhesive composition that is connected to a supply of adhesive composition; the gluing system also comprising a film running path of a substrate film to be glued with the gluing nozzle without contact between the gluing nozzle and the substrate film. 14. A gluing process according to claim 3 , wherein the transverse cross section of the concave relaxation volume of the extrusion die presents: a maximum thickness; upstream of the maximum thickness, a boundary curve with the upper lip and a boundary curve with the lower lip, both of which have radius of curvature greater than or equal to 50 mm; and downstream of the maximum thickness, a boundary curve with the upper lip and a boundary curve with the lower lip, both of which are straight with a transition radius for connecting to the maximum thickness that is greater than or equal to 50 mm. 15. A gluing process according to claim 14 , wherein the transverse cross section of the concave relaxation volume of the extrusion die has a drop like shape with a semicircular portion oriented towards the supply opening and a triangular portion whose most acute apex is oriented toward the extrusion outlet. 16. A gluing process according to claim 15 , wherein the gluing nozzle is within a system for gluing an adhesive composition that is connected to a supply of adhesive composition; the gluing system also comprising a film running path of a substrate film to be glued with the gluing nozzle without contact between the gluing nozzle and the substrate film. 17. A gluing process according to claim 3 , wherein the transverse cross section of the concave relaxation volume of the extrusion die has a drop like shape with a semicircular portion oriented towards the supply opening and a triangular portion whose most acute apex is oriented toward the extrusion outlet. 18. A gluing process according to claim 17 , wherein the gluing nozzle is within a system for gluing an adhesive composition that is connected to a supply of adhesive composition; the gluing system also comprising a film running path of a substrate film to be glued with the gluing nozzle without contact between the gluing nozzle and the substrate film. 19. A gluing process according to claim 3 , wherein the gluing nozzle is within a system for gluing an adhesive composition that is connected to a supply of adhesive composition; the gluing system also comprising a film running path of a substrat