Strip casting

The invention claimed is: 1. A continuous casting apparatus for casting a metal strip with a cross sectional form which varies along the length of the strip, the continuous casting apparatus comprising: opposing cooling means; a molten metal feed system positionable to provide a molten metal feed for solidification between the opposing cooling means to form a solidified metal strip along a length direction; a form adjustment system comprising at least one dam to determine, at least in part, the cross sectional form of the molten metal feed to the opposing cooling means, and thereby to determine the cross sectional form of the solidified metal strip, wherein the at least one dam is moveable during operation of the apparatus to vary the cross sectional form of the molten metal feed to the opposing cooling means; and the continuous casting apparatus further comprising a molten metal pressure control system, operable to control the pressure of the molten metal in the molten metal feed during operation of the apparatus in coordination with movement of the at least one dam. 2. The continuous casting apparatus according to claim 1 , wherein the continuous casting apparatus is a twin roll casting apparatus. 3. The continuous casting apparatus according to claim 1 , wherein the at least one dam is an AC electromagnetic field dam provided by at least one electromagnet. 4. The continuous casting apparatus according to claim 1 , wherein the molten metal feed system includes a feed tip in fluid communication with a molten metal reservoir via a conduit, the pressure of molten metal at the feed tip being controlled by controlling the pressure of molten metal in the reservoir. 5. The continuous casting apparatus according to claim 1 , wherein there is provided at least two dams at different positions, the at least two dams being capable of being selectively switched into operation. 6. The continuous casting apparatus according to claim 1 , wherein the at least one dam is selected from: an edge dam, operable to control the position of the edge of the cast strip; and a diverter, operable to divert the flow of molten metal to form an opening in the cast strip. 7. A continuous casting method for casting a metal strip with a cross sectional form which varies along the length of the strip, the method comprising: providing a molten metal feed for solidification between two opposing cooling means to form a solidified metal strip along a length direction; operating a form adjustment system comprising at least one dam to determine, at least in part, the cross sectional form of the molten metal feed to the opposing cooling means, and thereby to affect the cross sectional form of the solidified metal strip, wherein the at least one dam is moved during operation of the device to vary the cross sectional form of the molten metal feed to the opposing cooling means; and operating a molten metal pressure control system to control the pressure of the molten metal in the molten metal feed during casting in coordination with movement of the at least one dam. 8. The continuous casting method according to claim 7 , including the step of moving the at least one dam transversely to the length direction of the strip. 9. The continuous casting method according to claim 7 , wherein the molten metal feed system includes a feed tip in fluid communication with a molten metal reservoir via a conduit, the method further comprising controlling the pressure of molten metal at the feed tip by controlling the pressure of molten metal in the reservoir by at least one of: controlling the level of molten metal in the reservoir; and control of displacement of molten metal in the reservoir. 10. The continuous casting method according to claim 7 , wherein, when the at least one dam is moved so as to increase the width of the strip, the molten metal pressure is increased. 11. The continuous casting method according to claim 10 , wherein, once the at least one dam has been moved to increase the width of the strip and the width has increased to the desired amount, the molten metal pressure is reduced. 12. The continuous casting method according to claim 7 , wherein, when the at least one dam is moved so as to decrease the width of the strip, the molten metal pressure is decreased. 13. The continuous casting method according to claim 12 , wherein, once the at least one dam has been moved to decrease the width of the strip and the width has decreased to the desired amount, the molten metal pressure is increased. 14. A continuous casting apparatus for casting a metal strip with a cross sectional form which varies along the length of the strip, the continuous casting apparatus comprising: opposing cooling means; a molten metal feed system positionable to provide a molten metal feed for solidification between the opposing cooling means to form a solidified metal strip along a length direction; and a form adjustment system comprising at least one diverter, wherein the at least one diverter is operational to part the molten metal feed laterally in order to vary the cross sectional form of the molten metal feed to the rollers and thus the cross sectional form of the solidified metal strip, thereby providing at least one hole in the solidified metal strip. 15. The continuous casting apparatus according to claim 14 , wherein the continuous casting apparatus is a twin roll casting apparatus. 16. The continuous casting apparatus according to claim 14 , wherein the at least one diverter is an AC electromagnetic field diverter provided by at least one electromagnet. 17. The continuous casting apparatus according to claim 14 , wherein there is provided an array of at least two diverters at different positions, the array of at least two diverters being capable of being selectively switched into operation. 18. The continuous casting apparatus according to claim 14 , wherein there is provided a molten metal pressure control system, operable to control the pressure of the molten metal in the molten metal feed during operation of the apparatus in coordination with operation of the at least one diverter. 19. The continuous casting apparatus according to claim 14 , wherein the molten metal feed system includes a feed tip in fluid communication with a molten metal reservoir via a conduit. 20. The continuous casting apparatus according to claim 19 , wherein at least one bypass conduit is provided for molten metal to bypass the at least one diverter to reach a transverse side of the at least one diverter distal from a main feed conduit to the feed tip.