Blast and fragment resistant wall sections used inside structures like ships

The invention claimed is: 1. A protective wall for use in a structure such as a ship, the protective wall comprising: a first metal layer extending in a first plane between a first end and a second end; a second metal layer extending between a first end and a second end in a second plane that is parallel to said first plane; an armor steel plate, the armor steel plate being located between the first and second metal layers, the first and second metal layers having a higher ductility than the armor steel plate, the armor steel plate being mounted in a way that allows the first and second metal layers to stretch relative to said armor steel plate at least in response to forces resulting from a pressure surge from an explosion; a first layer and a second layer of elastomeric material between the armor steel plate and the first and second metal layers, respectively; and a connection piece, wherein the first end of the first metal layer is directly connected to the connection piece, the first end of the second metal layer is directly connected to the connection piece and the armor steel plate does not contact the connection piece. 2. The protective wall according to claim 1 , comprising a plurality of layers of armor steel plate successively between first and second metal layers, the layers of elastomeric material lying between the layers of armor steel plate and between the layers of armor steel plate and the first and second metal layers respectively. 3. The protective wall according to claim 1 , wherein first and second metal layers are made of steel, titanium or aluminum. 4. The protective wall according to claim 1 , wherein the armor steel plate has a yield stress and tensile strength corresponding to ARMOX 500 or ARMOX 600. 5. The protective wall according to claim 1 , wherein the first and second metal layers each have a tensile strength of less than 600 MPa and the armor steel plate has a tensile strength of more than 1000 MPa. 6. The structure according to claim 1 , wherein the connection piece has first and second faces, and wherein the first ends of each of the first and second metal layers are attached to the first face, and the second face is attached to a wall, ceiling or floor element of the structure. 7. The structure according to claim 6 , wherein the wall is a bulkhead of a ship. 8. The protective wall according to claim 1 , wherein substantially all contact between the armor steel plate and the metal layer is mediated via the layer of elastomeric material. 9. The protective wall according to claim 1 , wherein there is no direct fixed attachment between the armor steel plate and the first and second metal layers. 10. A protective wall according to claim 1 , wherein the connection piece has a T-shaped cross-section and comprises a top bar and an elongated member extending from the top bar to a distal end, wherein the first end of each of the first and second metal layers is connected to the top bar of the connection piece and the distal end of the elongated member of the connection piece is attached to the structure. 11. The protective wall according to claim 1 , wherein the armor steel plate is only coupled to the connection piece via the elastomeric material. 12. A method of assembling a structure, comprising: attaching a first end of a first metal layer directly to a connection piece, the first metal layer extending in a plane from the first end to a second end, placing an armor steel plate coated on both sides with elastomeric material adjacent to the first metal layer, after the first metal layer is attached to the connection piece, without attaching the armor steel plate directly to the connection piece, whereby the first metal layer is allowed to stretch relative to the armor steel plate in said plane at least in response to forces resulting from a pressure surge from an explosion, and attaching a second metal layer directly to the connection piece and/or the first metal layer and over the armor steel plate, the first and second metal layers having a higher ductility than the armor steel plate. 13. A method of assembling a structure comprising assembling at least part of the structure with a wall, the wall comprising: first and second metal layers each having first and second ends and extending, respectively, in first and second parallel planes and each of the first and second ends attached to elements of the structure, and inserting an armor steel plate coated on both sides with elastomeric material between the first and second metal layers after each of the first and second ends of said first and second metal layers are attached directly to elements of the structure without attaching the armor steel plate directly to said elements, whereby the first and second metal layers are allowed to stretch relative to the armor steel plate in said first and second planes, respectively, at least in response to forces resulting from a pressure surge from an explosion, the first and second metal layers having a higher ductility than the armor steel plate. 14. A protective wall for use in a structure such as a ship, the protective wall comprising: a first metal layer extending in a first plane and having a surface and one or more ribs on the s surface; an armor steel plate adjacent the first metal layer, the first metal layer having a higher ductility than the armor steel plate, the armor steel plate being mounted in a way that allows the first metal layer to stretch relative to said armor steel plate at least in response to forces resulting from a pressure surge from an explosion; and a first layer of elastomeric material between the armor steel plate and the first metal layer, wherein the armor steel plate rests on at least one of the one or more ribs on the surface of the first metal layer, without being fixedly attached to the rib(s). 15. The protective wall according to claim 14 further comprising: a second metal layer extending in a second plane that is parallel to said first plane and having a surface and one or more ribs on the surface; and a second layer of elastomeric material between the armor steel plate and the second metal layer, wherein the armor steel plate rests on at least one of the one or more ribs on the surface of the second metal layer, without being fixedly attached to the rib(s), wherein the first and second metal layers have a higher ductility than the armor steel plate, and wherein the armor steel plate is disposed between the first and second metal layers in a way that allows the first and second metal layers to stretch relative to said armor steel plate in said first and second planes, respectively, at least in response to forces resulting from impact by fragments from an explosion. 16. The protective wall according to claim 15 comprising a plurality of layers of armor steel plate successively disposed between first and second metal layers, the layers of elastomeric material lying between the layers of armor steel plate and between the layers of armor steel plate and the first and second metal layers, respectively. 17. The protective wall according to claim 15 , wherein first and second metal layers are made of steel, titanium or aluminum. 18. The protective wall according to claim 15 , wherein the first and second metal layers each have a tensile strength of less than 600 MPa and the armor steel plate has a tensile strength of more than 1000 MPa. 19. The protective wall according to claim 14 , wherein the armor steel plate has a yield stress and tensile strength corresponding to ARMOX 500