TH72413B - Laminated sheet metal for container How to manufacture metal cans And methods for assessing sheet metal forming capabilities - Google Patents

Abstract

Laminated metal for suitable containers for DR cans capable of Excellent formability after heat treatment e.g. Coating and printing including how to produce cans The metal used for that sheet metal and methods for assessing the ability to form sheet metal Controlled the crystal structure of the laminated surface layer and within the laminated layer of the laminated metal sheet for containers, in other words, the l2969/l30B5 intensity ratio of the Ramanband intensity was controlled. Peak-top position near 3085 cm-1 (l3085) with Raman band intensity at peak-top position near 2968 cm-1 (l2969) obtained by laser Raman spectroscopy and controlled. This intensity ratio is kept within the specific range.

Claims (9)

1.Laminated sheet metal for a container in which a laminate layer is coated on at least one side of the metal plate, characterized by Such laminates are made from one layer or several layers based on polyester. The l2968 / l3085 intensity ratio of the raman band intensity at the peak position near 2968 cm-1 (l2968) with the raman band intensity at the peak position near 3085 cm-1 (l3085). Obtained by laser method Raman spectroscopy of the surface of the laminate layer is in the range of 0.3 - 0.9. The intensity ratio of the aforementioned Raman band l2968 / l3085 when laser projected polarized light Lines to all areas in the direction of the cross-sectional thickness of the laminate layer from the vertical direction The perpendicular to the laminate step cross-section is in the range from 0.7 - 1.5. 2. Laminated sheet metal for the container specified in claim 1, which is characterized by the case of heating the laminated sheet for the container in the temperature range 160-210 ํ C for 20 minutes. Such Raman band l2968 / l3085 intensity ratio when projecting a linear-polarized light to total area in the thickness direction. The cross-section of the laminate layer from the direction perpendicular to the first laminate layer cross-section. After heating it is no more than 0.4 3. The laminated metal sheet for the container specified in claim 1 or claim 2, which has a specific characteristic, is that the laminate layer is formed by overlapping layers. Intermediate layer Steel bonding layer with such intermediate layers consisting of white pigments 5 or more, not more than 30 PHR. 4.Laminated sheet metal for the container specified in claim 3 white, which is characterized by the aforementioned surface layer and each such layer of bonded sheet, consisting of a white pigment, not more than 2 PHR. 5. Laminated metal plates for the containers specified in claim 3 or claim 4, characterized by the aforementioned white pigments, are titanium dioxide. Barium sulfate 6. Laminated metal sheets for the containers specified in Claim 1 to Claim 5, any of the clauses 1, which has specific characteristics as follows: The laminate layer is built on the side that will be the front inside the container. The polyesters included in the laminate consist of 80 mol% or more of ethlene terephthalate subunits. 7. Laminated metal sheets for containers specified in Claim 1 to Claim 5, any one of the number 1, which has specific characteristics as follows: The laminate layer is built on the side that will be the outer side of the container. The laminate is mainly composed of polyester. Such polysters contain the total volume of ethylene terephthalate subunits with The volume of the butylene terephthalate (buytylene terephthalate) subunit is 80 moi% or more, the glass-transposition temperature of such polyester is 20 - 100 ํ C. 8. How to produce metal cans which have The printing process in which the ink adheres onto such a laminate layer that is created on the surface of the Laminated sheet metal for the containers specified in Clause 1 to Claim 7, any one of Clause 1 and heating the ink to dry, and the canning process, which produces cans from sheet metal. Minate for Container after the above printing process. 9. A method for assessing the ability of sheet metal forming, which assesses the ability to Forming of the laminated sheet metal for the container after heating The laminated metal sheets for such containers have a laminate layer that is coated at least brazenly. One of the metal plates Such laminates are made from one layer or several layers based on polyester. There was one process that quantified the l2968 / l3085 intensity of the raman band intensity at The peak top position near 2968 cm-1 (l2968) with the raman band intensity at the peak top position near 3085 cm-1 (l3085) obtained by the floor Raman spectroscopy method. The surface of the laminate layer Before heating and a second process, the l2968 / l3085 raman band intensity was determined when projected. Laser light is linearly polarized against total area in the direction, thickness, cross-section of the laminate layer. As mentioned, before heating from the direction perpendicular to the laminate cross-section and a third process, which assesses the forming ability of the laminated sheet metal for the container. According to the l2968 / l3085 intensity ratio obtained in the first process and the l2968 / l3085 intensity ratio obtained in the second process.