A process for using explosion bonding to produce a metal composite. The explosion bonding produces a substantially diffusionless metallurgical bond between the layers. In one aspect, the ductility of at least one of the layers being bonded is increased by heating prior to bonding. In another aspect, a layer comprises explosion bonding a plurality of cladding layer to a backer plate such that the seam between the strips is sealed.

Process for explosive cladding

986,435. Welding by pressure. IMPERIAL CHEMICAL INDUSTRIES Ltd. Oct. 17, 1963 [Oct. 24, 1962], No. 40279/62. Heading B3R. In joining clad metal parts a metallurgical joint is made between the edges of the base metal portions of the parts a strip of cladding metal is placed to overlie the joint and cladding metal on each side of the joint, the strip is covered with a layer of explosive and the explosive is detonated. Two mild steel plates 1 clad with titanium are joined by welding 5 the cladding 2, 3 being removed from the welded edges to leave a gap 4 in which the base metal is exposed and the assembly is placed on a steel anvil 6. An assembly of a strip 7 of titanium covered with a mild steel strip 8 in turn covered with a layer 9 of nitroglycerine powder explosive is placed over the welded joint 5 with the edge 12 of the titanium sheet in contact with the cladding on one side of the joint and at an angle of 10 degrees to the cladding and a detonating fuse 10 is initiated by a detonator 13 to bond the strip 7 to the cladding 2, 3 and to the mild steel in the gap 4. In one modification the mild steel layer 8 is omitted and in another the titanium strip 7 is placed in contact with both cladding portions 2, 3 before the explosion with cardboard strip between the mild steel 8 and titanium 7. The cladding layers may be of nickel or stainless steel.

Joining clad metal parts

A compound material for temperatures up to about 1250° C. or 1350° C., respectively, and a method for producing the same, are disclosed, including a pair of joined layers one of which is a corrosion- and high-temperature-resistant alloy, the other layer consisting of a refractory material with high strength at high temperatures. The layer having the weaker mechanical strength at high temperatures is thinner than the other layer, the ratio of layer thickness preferably being between 1:5 and 1:2. A further alloy layer may be provided on the opposite side of the refractory layer, thereby to define a three-layer laminate. A thin layer of diffusion barrier material, such as platinum or palladium, may be provided between the refractory and alloy layers. The method for producing the laminate includes the step of detonating an explosive layer to exposively clad the alloy layer on to the refractory layer.

Compound material and method for producing same

The materials such as tungsten zirconium, molybdenum and their alloys are first heated and then welded together by explosion. Special steps are taken to prevent premature ignition of the explosive.

Explosion welding of brittle materials

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Process for explosive cladding

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References

Joining clad metal parts

Compound material and method for producing same

Explosion welding of brittle materials

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