Method for rolling metal composite plate strip

Abstract

The present invention discloses a method for rolling a metal composite plate/strip, comprising the following steps: 1) selecting a metal base plate and a metal cladding plate, cleaning the surfaces of the base plate and the cladding plate to be composited until the metal matrixes are exposed; 2) sequentially laminating the base plate and the cladding plate to obtain a composite plate slab; 3) rolling the composite plate slab through a composite rough rolling mill having a corrugated roll to obtain a composite plate having a corrugated mating surface on its composite surface; and 4) flattening the composite plate having a complete corrugated cladding plate by a composite finish rolling mill to a desirable thickness to obtain a composite plate/strip.

Claims

1. A method for rolling a metal composite plate/strip, comprising: 1) selecting a base plate and a cladding plate, cleaning surfaces of the base plate and the cladding plate to be composited until their metal matrixes are exposed; 2) sequentially laminating the base plate and the cladding plate to obtain a composite plate slab having a flat top surface of the cladding plate, a flat bottom surface of the base plate, and a flat composite interface between the base plate and the cladding plate; 3) rolling the composite plate slab through a composite rough rolling mill having a circular arc-shaped corrugated roll to obtain a composite plate having a circular arc-shaped corrugated mating interface on its composite interface, a circular arc-shaped corrugated top surface that is in parallel to the circular arc-shaped corrugated mating interface, and the flat bottom surface; and 4) flattening the circular arc-shaped corrugated top surface of the composite plate having a complete circular arc-shaped corrugated cladding plate by a composite finish rolling mill to a desirable thickness to obtain a composite plate/strip having the circular arc-shaped corrugated mating interface between the base plate and the cladding plate.

2. The method for rolling a metal composite plate/strip according to claim 1, wherein the cladding plate is one piece, the deformation resistance of the cladding plate is greater than that of the base plate, and the composite rough rolling mill is a two-high rolling mill with one roll having toothed surface and the other roll having smooth surface so that the rolling is performed by allowing the roll having toothed surface to be in contact with the cladding plate and the roll having smooth surface to be in contact with the base plate.

3. The method for rolling a metal composite plate/strip according to claim 1, wherein the cladding plate is two pieces located respectively at the upper and lower surfaces of the base plate, the deformation resistance of the cladding plates is greater than that of the base plate, and the composite rough rolling mill is a two-high rolling mill with both rolls having toothed surfaces so that the rolling is performed by allowing the rolls having toothed surface to be in contact with the upper and lower cladding plates.

4. The method for rolling a metal composite plate/strip according to claim 1, wherein the step 2) further comprises: feeding the laminated base plate and cladding plate to a press for a compaction, packaging and welding with a vertical plate by first performing spot welding around the laminated composite plate and then using submerged-arc welding drilling at an end of the welded composite plate slab and vacuuming, and then closing the hole, to obtain the composite plate slab.

5. The method for rolling a metal composite plate/strip according to claim 1, wherein the step 3) further comprises: before rough rolling, welding the composite plate slab after inspection and sealing at its periphery, then vacuuming the composite plate slab and feeding the composite plate slab to a heating furnace to be heated to a rolling temperature, and then feeding the composite plate slab to a rough rolling mill for rough rolling.

6. The method for rolling a metal composite plate/strip according to claim 1, wherein the step 3) further comprises: before rough rolling, welding the composite plate slab after inspection by spot welding at its periphery, feeding the composite plate slab to a pickling device for pickling, and then feeding the composite plate slab to a rough rolling mill for rough rolling.

7. The method for rolling a metal composite plate/strip according to claim 1, wherein the corrugation of the composite interface is perpendicular to the rolling direction or parallel to the rolling direction in step 4).

8. The method for rolling a metal composite plate/strip according to claim 1, wherein the corrugation heights of the cladding plate and the base plate composite interface are 10%-150% of the cladding plate thickness, and a corrugation width of the corrugated mating interface between the base plate and the cladding plate is 5-10 times of a corrugation height thereof.

9. The method for rolling a metal composite plate/strip according to claim 1, further comprises step 5), trimming, heat treatment, leveling and segmenting.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a schematic view of a one-side composite plate slab;

(2) FIG. 2 is a schematic view of rough rolling of the one-side composite plate;

(3) FIG. 3 is a semi-finished product of one-side composite plate with circular arc-shaped corrugated cladding plate after rough rolling;

(4) FIG. 4 is a schematic view of finish rolling of the one-side composite plate;

(5) FIG. 5 is a finished product of composite plate with circular arc-shaped corrugated bonding surface after finish rolling;

(6) FIG. 6 is a schematic view of a two-side composite plate slab;

(7) FIG. 7 is a schematic view of rough rolling of the two-side composite plate;

(8) FIG. 8 is a semi-finished product of two-side composite plate with triangular corrugated cladding plate after rough rolling;

(9) FIG. 9 is a schematic view of finish rolling of the two-side composite plate;

(10) FIG. 10 is a finished product of composite plate with triangular corrugated bonding surface after finish rolling;

BRIEF DESCRIPTION OF REFERENCE NUMERALS

(11) 1.1′-cladding plate;

(12) 2-base plate ;

(13) 3-upper rough rolling roll

(14) 4-lower rough rolling roll ;

(15) 5-upper working roll of finish rolling ; and

(16) 6-lower working roll of finish rolling.

DETAILED DESCRIPTION OF THE EMBODIMENTS

(17) The present invention will be further described in detail with reference to the drawings and the embodiments. It should be understood that the concrete embodiments described herein are only used to illustrate the present invention, and not used to limit the present invention.

(18) Embodiment 1: Preparation of titanium steel-carbon steel one-side composite plate

(19) Making a slab: selecting TC4 titanium steel plate and Q345R carbon steel plate according to the proportion of 1:4 to compose a slab, wherein the titanium steel plate has a size of 40 mm (thickness)×1500 mm (width)×3000 mm (length) and is used as cladding plate 1, and the carbon steel plate has a size of 160 mm (thickness)×1500 mm (width)×3000 mm (length) and is used as base plate 2; cleaning the carbon steel plate and titanium steel plate until the metal matrixes are exposed; laminating the cladding plate 1 and the base plate 2; feeding them to a press for a compaction, packaging and welding with a carbon steel of 15 mm thick by first performing spot welding around the laminated composite plate slab then using submerged-arc welding, drilling at an end of the welded composite plate slab and vacuuming, and then closing the hole, to obtain the composite plate slab, as shown in FIG. 1, wherein the thickness of the composite plate slab is 200 mm.

(20) Heating: feeding the qualified composite plate slab after inspection to a heating furnace, and heating to 1200° C.

(21) Rough rolling: feeding the heated composite plate to a composite rough rolling mill for rolling, as shown in FIG. 2, wherein the composite rough rolling mill is a two-high rolling mill with one roll having circular arc-shaped toothed surface and the other roll having smooth surface so that the rolling is performed by allowing the roll having toothed surface to be in contact with the cladding plate and the roll having smooth surface to be in contact with the base plate; rolling the titanium steel-carbon steel composite plate slab along a rolling direction to form a rough rolling composite plate in which the titanium steel cladding plate is a whole circular arc-shaped corrugated plate, and composite surfaces of the carbon steel base plate 2 and the titanium steel cladding plate 1 ate mated with each other by circular arc-shaped corrugations, as shown in FIG. 3, wherein the arc-shaped width of the circular arc-shaped corrugated surface of the cladding plate 1 is 5 times of the arc-shaped height thereof, circular arc-shaped corrugation height is 30 mm, and circular arc-shaped corrugation is distributed continuously along a length direction.

(22) finish rolling: as shown in FIG. 4, feeing the one-side circular arc-shaped corrugated composite plate after rough rolling to a four-high finish rolling mill for rolling, wherein the working roll 5, 6 and support rolls of the finish rolling mill are all flat rolls having smooth surfaces, arranging the corrugation of the rough rolling composite plate along the rolling direction, and rolling by the finish rolling mill until the rough rolled composite plate with one-side circular arc-shaped corrugation is rolled into a two-side planar finished product composite plate with 20 mm thickness, as shown in FIG. 5.

(23) And finally trimming, performing heat treatment, leveling, and segmenting, to form a finished product.

(24) Embodiment 2: Preparation of copper plate copperplate-aluminum plate-copper plate two-side composite plate:

(25) Make a slab: selecting a T3 copper plate, a LY2 aluminum plate and a T3 copper plate according to a proportion of 1:3:1 to compose a slab, wherein the aluminum plate has a size of 120 mm (thickness)×800 mm (width)×3000 mm (length) and is used as base plate 2, two copper plates have a size of 40 mm (thickness)×800 mm (width)×3000 mm (length) and respectively used as upper cladding plate 1 and lower cladding plate 1′; cleaning the aluminum plate and two copper plates until the metal matrixes are exposed; laminating the lower cladding plate 1′, the base plate 2 and the upper cladding plate, feeding to a press for a compaction, and welding around the laminated composite plate slab by using spot welding, to obtain a composite plate slab with a thickness of 200 mm, as shown in FIG. 6.

(26) Pickling: feeding the qualified composite plate after inspection to a pickling device for pickling.

(27) Rough rolling: feeding the qualified composite plate after pickling to a composite rough rolling mill for rolling, as shown in FIG. 7, wherein the composite rough rolling mill is a two-high rolling mill with both rolls having triangular toothed surfaces; rolling the upper copper plate cladding plate 1 and the lower copper plate cladding plate 1′ along a rolling direction to form a rough rolled composite plate with a whole triangular corrugated cladding plate in which the bonding surfaces of the base plate 2 and the upper cladding plate are triangular corrugated surfaces mating with each other, and the bonding surfaces of the base plate 2 and the lower cladding plate 1′ are also are triangular corrugated surfaces mating with each other, and triangular corrugation width is 10 times of triangular corrugation height, triangular corrugation height is 15 mm, and triangular corrugation is distributed continuously along a length direction.

(28) Finish rolling: feeding the two-side triangular corrugated composite plate after rough rolling to a four-high compositing finish rolling mill for rolling, as shown in FIG. 9, wherein the working roll 5, 6 and support rolls of the four-high finish rolling mill are all flat rolls having smooth surfaces, arranging the corrugation of the rough rolled composite plate along the rolling direction, and rolling by the four-high finish rolling mill until the rough rolled composite plate with two-side triangular corrugation is rolled into a two-side planar finished product composite plate with a thickness of 12 mm, as shown in FIG. 10; and then rolling by a six-high finish rolling mill to obtain a composite thin strip with a thickness of mm.

(29) And finally trimming, performing heat treatment, and leveling, to form a finished product.

(30) The corrugations are continuously and uniformly distributed on the base plate 2 and cladding plate 1 during the rough rolling, and the corrugations of the composite surfaces are perpendicular to or parallel to a rolling direction during finish rolling. The cladding plate 1 with a deformation resistance greater than that of the base plate 2 should be selected when the materials are selected.

(31) Corrugated section shapes of the cladding plate formed by rough rolling are circular arc-shaped, oval, sinusoidal, triangular, trapezoidal or rectangular, and the corrugation height of the cladding plate is 10%-150% of the thickness of the cladding plate; and base plate composite surface is one-side corrugated after rough rolling , and corrugated section shapes of the cladding plate are circular arc-shaped, oval, sinusoidal, triangular, trapezoidal or rectangular, and the corrugation height of the base plate composite surface is 10%-150% of the thickness of cladding plate.

(32) In the two embodiments, the binding force between the base plate and the cladding plate is increased by meshing force between the base plate corrugation and cladding plate corrugation. The differences of the metal plastic deformation due to the different deformation resistance of dissimilar metals is eliminated by the bonding of the whole corrugated cladding plate and the toothed surface of the base plate, with a good composite effect. The bonding strength of the metal interface has substantially improved compared to the bonding strength by using planar plate.