Panel structure and production method

The invention claimed is: 1. A method of producing a sandwich structure including a core formed of profiled metal sheet material and a metal face sheet secured to one side or a plurality of metal face sheets secured to different sides of the core, the method comprising: forming the core by folding a single sheet of material to provide protrusions in a predetermined pattern comprising a grid of the protrusions extending in two dimensions on said one side or on each side of the core, wherein a plurality of the protrusions extend in each of the two dimensions; forming apertures in a predetermined pattern in the metal face sheet or the plurality of metal face sheets; forming said apertures with dimensions at least slightly exceeding those of said protrusions; applying the metal face sheet to said one side of the core or applying the plurality of the metal face sheets to different sides of the core, thereby at least partially extending protrusions of the core through apertures of the associated metal face sheet; and securing the protrusions of the core to said associated metal face sheet by welding, brazing or soldering, wherein the core comprises parallel corrugations, said corrugations comprising a plurality of channels with axes that are parallel to the metal face sheet or sheets and being closed at least at one side by the metal face sheet or sheets, wherein a respective channel of the plurality of channels opens in a direction opposite an adjacent channel, and wherein a respective protrusion of the protrusions is disposed at a base of the respective channel. 2. A method according to claim 1 , wherein the welding, brazing or soldering protrusions of the core to an outer side of the respective face sheet is performed from outside the respective metal face sheet. 3. A method according to claim 1 , wherein: the sandwich structure has a generally flat configuration, the apertures and the protrusions are formed so as to be equally spaced and distributed in said respective protrusion and aperture patterns and by placing the metal face sheet or each metal face sheet on the associated side or sides of the core with the respective protrusions and apertures aligned with each other. 4. A method according to claim 1 , wherein: the sandwich structure has a generally curved or cylindrical shape, the apertures are formed for joining to an outer, in the cylindrical configuration, side of the core in a predetermined pattern that is adapted to the positions of outer protrusions in the cylindrical configuration of the core and/or the apertures are formed for joining to an inner, in the cylindrical configuration, side of the core in a predetermined pattern that is adapted to the positions of inner protrusions in the cylindrical configuration of the core and by curving the core and the face sheet or sheets partly prior to or in association with bringing them together for mutual joining. 5. A method according to claim 4 , wherein the predetermined pattern of the apertures of the outer, in the cylindrical configuration, side of the core comprises a first distance between respective apertures in a direction of curvature of the cylindrical configuration, and wherein the predetermined pattern of the apertures of the inner, in the cylindrical configuration, side of the core comprises a second distance, smaller than the first distance, between respective apertures in the direction of curvature of the cylindrical configuration. 6. A method according to claim 1 , wherein partially extending protrusions of the core through the apertures of the associated metal face sheet comprises extending the protrusions of the core past an outer side of the associated metal face sheet, and wherein securing the protrusions of the core to said associated metal face sheet comprises melting at least a part of a respective protrusion extending past the outer side of the associated metal face sheet into a corresponding surrounding respective aperture. 7. A method according to claim 6 , wherein melting at least the part of the respective protrusion extending past the outer side of the associated metal face sheet into the corresponding surrounding respective aperture creates a joint with an external surface substantially flush with the outer side of the associated metal face sheet. 8. A method according to claim 1 , wherein the respective channel comprises a first portion substantially parallel to the metal face sheet or sheets and a second portion substantially perpendicular to the metal face sheet or sheets, and wherein the first portion comprises the respective protrusion.