Patent ID: 6773217
Filing Date: 2004-08-10
Classification: B05D,C25D,Y10T

Abstract:
Process for formulating thermoplastic polymers and combining with flat-rolled mild steel substrate for producing composite work product for fabricating rigid sheet metal can components, comprisingA) providing elongated rigid flat-rolled mild steel continuous-strip presenting opposed substantially-planar surfaces, having: (i) a steel thickness gage in the range of about 0.006â€³ to about 0.015â€³, and (ii) corrosion-protection for each such opposed surface which includes electrolytic tin plating for at least one surface; B) directing such strip for continuous-line travel at a selected line-speed in the direction of its length, presenting such opposed substantially-planar surfaces extending between elongated lateral edges of such strip; C) pre-treating a single-surface of such strip, so as to enhance reception and retention of formulated thermoplastic polymers on such pre-treated surface, by: (i) selecting pre-treating steps from the group consisting of: (a) impinging an open flame for burning-off any debris from such single-surface, with the fuel/air ratio of such open-flame controlled so as to produce an oxidizing reaction by impingement on such surface; (b) corona-discharge ionizing of gaseous atmosphere contacting such single-surface, free of electric arcing with such surface, and (c) a combination of (a) and (b), in any sequence; D) selecting thermoplastic polymers and formulating for melted thin-film extrusion deposition under pressure on such single-surface as plural polymeric layers: E) selecting such polymeric layers from the group consisting of: (i) a two-polymeric layer embodiment, and (ii) a three-polymeric layer embodiment; each of which, comprises: (a) a tie polymeric layer which first-contacts such strip for bonding with such pre-treated single-surface, and (b) an externally-located finish-surface polymeric layer; with such three-polymeric layer embodiment further including: an intermediate-polymeric layer which is melted, extruded under pressure as a thin-film, and located between such first-contacting tie polymeric layer and with such finish-surface polymeric layer so as to bond with each; F) directing such strip for travel in-line at substantially ambient temperature; G) preparing such polymeric formulations for extrusion, under pressure, by: (i) establishing and maintaining such formulations in a temperature range including at least melt temperature for such thermoplastic polymers, (ii) simultaneously extruding such melted formulations under pressure, as thin-film distinct polymeric layers of a selected embodiment, extending across strip width, and (iii) extending such thin-film extrusion further so as to establish a polymeric overhang extending beyond each lateral strip edge; H) solidifying such extruded polymeric layers, including (i) initiating heat-removal by contact with such ambient temperature strip as traveling in-line, and (ii) augmenting heat-removal by contact, of the polymeric coating on such strip and such polymeric overhang, with a temperature-modulating surface while such strip is traveling in-line, with heat removal of steps (i) and (ii): (iii) achieving solidification of such polymeric layers across strip width, and solidification of such polymeric overhang beyond each such lateral edge, enabling continuing-in-line travel of such polymeric coated strip independent of contact with such temperature-modulating surface. I) trimming solidified polymeric overhang beyond each such lateral strip edge; J) finish-treating polymeric layers of such selected embodiment, by raising temperature of such polymeric layers to at least melt temperature, while avoiding heating of such strip to melt temperature for such tin plating, and K) rapidly cooling such melted polymeric layers through glass-transition temperature, so as to establish: (i) amorphous non-directional characteristics in such polymeric layers of the selected embodiment, while also (ii) removing heat from such strip.