SU567581A1 - Lamination for manufacturing steel-titanium bimetal sheets - Google Patents

Claims (1)

on the side of titanium, improves the ductility of the interlayer. When assembling the package, the interlayer can be applied by metallization on the joined surfaces or by successive metallization on one of the joined surfaces. The thickness of each metallized layer is 0, 2-0,4 mm. With a thickness of less than 0.2 mm, this method of applying the interlayer does not ensure its continuity; the thickness of the interlayer above 0.4 mm is uneconomical. The proposed interlayers can be made in the package in the form of a foil between the joining surfaces. The thickness of the foil should have been 0.1-0, 2 mm. The interlayers, which are less than 0.1 mm thick, are dissolved during the heating process after rolling due to mutual diffusion. The thickness of the layers above 0.2 mm is uneconomical. When assembling a package, one of the interlayers can be applied by the method of metallization, and the friend is introduced in the form of a photo. Hot rolling of the bimetallic package has been improved from temperature. 1100-1150 ° C. This temperature range is optimal for rolling steel sheets. Example. Steel-titanium bimetal is obtained by a hot yukattsy four-layer symmetric package. The main layer used plate steel grade Art. 3 of the molybdenum alloy UM-2A (with 0.1% zirconium) 0.2 m thick The interlayer 0.2 mm thick on the side of the base layer consists of binary nickel alloy with 15% molybdenum. Titanium plates with a sputtered double intermediate layer are applied to the steel plates in such a way that the layer is between them. On the surface of the titanium plates facing each other, a special separating layer 5 is applied, preventing them from seizing between the fights. The assembled package is brewed by electric welding around the perimeter. The bag is heated in a gas-flame furnace to 115 ° C for 2 hours and then rolled on a duo mill for seven passes (total deformation 86%). After trimming the edges, two steel-titanium bimetal sheets with a thickness of 3 m are obtained. The proposed underlayer makes it possible to reduce the energy consumption during rolling by about 30% by increasing the ductility of the steel when the package is rolled from a temperature of 1150 °. 2-1.5 times, and also to increase the strength of the connection of bimetal layers by 2.5 times. Bimmetal steel-guitar is used in chemical engineering for tanks and pipelines operating in corrosive environments, especially under high pressure. The application of the proposed method allows to significantly improve the processability of the bimetal and increase the reliability of devices made from it, by increasing the strength of the connection of the layers by about 2.5. The package is intended for use at the Orsk-Khaliloa metallurgical combine. Claim 1, Package for the manufacture of steel-titanium bimetallic sheets containing steel and titanium sheets, as well as an interlayer located between them, characterized in that, in order to increase the strength of the connection of the package sheets, the interlayer is made of a layer of nickel alloy adjacent to the steel sheet , molybdenum alloy, p | I1 adjacent to the titanium sheet. 2, the Package according to claim 1, about tl and h ay y and y with the fact that Shekel alloy contain 12-25% chromium. 3, A package of claim 1, 1, of tl and ch and y and y with the fact that the nickel alloy contains 5-30% molybdenum, 4, a package of according to n, 1, of t and a and y of y and i with that the nickel alloy contains 2O-45% copper, 5, the package according to claim 1, 1, and lt is the fact that the molybdenum alloy contains 0.1-0.6% zirconium. 6, The package according to claim 1, that is, in that the molybdenum component of the interlayer is made of foil 0.1-0.2 mm thick. 7, Packet according to claim 1, that is, that the nickel component of the interlayer is made of foil 0.1-0.2 mm thick. Sources of information taken into consideration in the examination : 1, USSR Author's Certificate No. 369973, cl. B 23 P 3/06, 1966..