The shaping methods used today are based on the fact that a workpiece, preferably in the form of plates or bands, is shaped a desired-shape in a machine or with a tool, which determins the shape of the final product. The shaping method based may be constituted by rolling shaping, pressing, deep drawing etc. When edge bending/edge folding/edge pressing it is a combination of tools and machinery settings that decide the shape of the final product. These previously known shaping methods have a plurality of drawbacks and when three-dimensional shaping, for example the tools are very expensive. When shaping ultra-high strength materials having a tensile limit that is greater than 10000 N/mm2 the shaping is very difficult to carry out and in particular when it comes to making the shaping with narrow radii in the bending operations edge bending, edge folding and rolling shaping.

The object of the present invention is to provide a controlled work-piece shaping of metal, preferably in the form of plates or bands, where you from a plane or pre-shaped plate workpiece can make possible bending or shaping of two-and three-dimensional' shapes in a very simple and reproduceable manner. Furthermore, it is very easy by means of the workpiece according to the invention shape the latter to a final product with relatively simple tool or other devices, in certain cases when the material is thin wall, by hand. By the invention you can now shape ultra high-strength materials with a. tensile limit exceeding 1000 N/mm2

in both two-and three-dimensional shapes, wherein the above enumerated drawbacks are eliminated. The characterizing features of the invention are stated in the accompanying claims.

Thanks to the invention you have accomplished a controlled workpiece shaping of metal workpieces, preferably in the form of plates or bands, which method in an excellent manner fulfills its purpose at the same time as it in addition is both simple and cheap to carry out. With the workpiece according to the invention you can now carry out a further shaping along predetermined folding notches or zones across the workpiece where the yield point of the material through heating is reduced to a yield point which is substantially lower than adjacent base material. The workpiece is now very easy to shape along said folding notches or zones to any desired shape even of a complicated kind. At the same time also rolling shaping and edge folding/edge bending of profiles of material with a tensile limit of above 1000 N/mm2 with very narrow radie. By this enlarged possibility to treat this high strength workpiece the need for welding and expensive follow-up operations are reduced, in particular when there are very sharp bending radie on the piece in question to be produced. Furthermore, during the manufacture you can easily both punsch and cut in the workpiece recesses or holes that are to exist in the construction or for later assemblage at the same time as bending can be carried out in optional angles.

The invention is described in more detail below with the aid of a preferred embodiment example with reference to the accompanying drawings, in which

Fig. 1 shows a plane workpiece, which is provided with bending' notches according to the invention to accomplish a two- dimensional shape of the.. final shaped product, Fig. 2 shows the workpiece in fig. 1, after that it has been shaped to the pre-determined shape along the bending notches, Fig. 3 shows another plane workpiece, which is provided with bending notches according to the invention to accomplish a three-dimensional shape of the finally shaped product and Fig. 4 shows the workpiece in Fig. 3, after that it has been shaped to a pre-determined shape along the bending notches.

The method according to the invention means that you make folding/bending notches 2, 3 in a workpiece 1 of plate or band shape consisting of a material with a high tensile limit and preferably above 1000 N/mm2 and which is intended to be further shaped from its original, substantially plane state. Along said folding/bending notches 2, 3 or zones across the workpiece the yield point of the matrial is reduced by heating to a value, which is substantially lower than the yield point of adjacent base material-Through said treatment of the folding notches or zones 2, 3 the workpiece 1 can then subjected to following bending operations. During said operation you shape the plate workpiece 1 in or along the partially heated zones 2, 3 and which shaping is made possible thanks to the lower yield point at said folding notches or zones. When the heat treatment has been completed you permit the material to cool while waiting for coming bending operation.

When the workpiece 1 then has been folded or bended along the heat treated zones 2, 3, depending on the direction of the heat treated zones 2 ; 3, which can be straight, curved, formed as a circle segment or extending along an optional curve, the workpiece 1 will bend out of the plane and the entire workpiece 1 then assumes a two-or three-dimensional shape and/or extension.

According to the invention you have now provided a plane or pre- shaped metallic plate workpiece, which is intended to be further shaped and which has a tensile limit, preferably above 1000 N/mm2 the shape of which can be varied and where you have heated one or more narrow elongated zones to a temperature, so that the properties of the material are changed and you achieve a real reduction of the tensile limit of the material along said zones.

The heat treatment of said zones may take place one-or two- sides, with the aid of a light arc, gas flame, reduction heating, laser, IR, visible or invisible light of all its sorts, hot shoes, induction, etc.

All machining of the workpiece according to the invention takes place in a machine with the aid of any of the above said heating methods and which delivers the final workpiece, which then is to be shaped. The bending radie, to be utilized when shaping the workpiece, is-determined by the width of the zone that is heat treated. You may vary the width of the zone in its longitudinal direction, which makes possible that the radie of one and the same bending or angle can be varied in the length of the bending. By controlling the heating a variation in the reduction of the tensile limit can be achieved and the tensile limit can also be varied in the direction of the thickness of the plate.

As previously mentioned the heating method of the folding

notches or zones in question can take place with the aid of any' of the above enumerated methods.

The pattern that the heat treated folding notches or zones form on the plane or preshaped plate workpiece controls the final shape. The workpiece according to the invention is constituted by a metallic material suitable for the object, preferably a thin wall, ultra-high strength stainless material.

The embodiments of the invention described above may be used separately or in combination with one another.