Cladding and method for manufacturing the same

The invention claimed is: 1. A cladding, comprising two or more layers including a first alloy and a second alloy bonded to the first alloy, wherein the second alloy has a hardness greater than that of the first alloy, the difference in the hardness between the first alloy and the second alloy is HRC 44 or more, and when a shear test in accordance with JIS G 0601 is performed on the cladding, breakage occurs on a first alloy side, wherein the second alloy is thinner than the first alloy, and wherein the second alloy is selected from SKD61, SKD1, SUS420J2 or NCF718. 2. The cladding according to claim 1 , wherein when the cladding is inspected by the bottom echo method of the ultrasonic flaw detection test of JIS G 0601, no defects occur in a bonding interface between the first alloy and the second alloy. 3. The cladding according to claim 1 , wherein when the cladding is inspected by the penetrant testing of ASME BPVC-VIII, a surface of the cladding is free of indication patterns, and a cross-section of the cladding is free of indication patterns having a length which exceeds three times a width of the indication patterns, is free of circular or elliptical indication patterns exceeding 5 mm, and does not have 4 or more indication patterns arranged in a straight line with an interval of 1.5 mm or less from end to end. 4. The cladding according to claim 1 , wherein the hardness of the first alloy is HRC 5 or less. 5. The cladding according to claim 1 , wherein the first alloy and the second alloy are directly bonded. 6. The cladding according to claim 1 , wherein a wave height at the bonding interface between the first alloy and the second alloy is 30 μm to 1000 μm. 7. A method for the production of a cladding, comprising: bonding a first alloy and a second alloy thinner than the first alloy by explosive welding, wherein the second alloy is selected from SKD61, SKD1, SUS420J2 or NCF718, and subjecting the bonded second alloy to quenching and tempering heat treatment to harden the second alloy, such that the second alloy has a hardness greater than that of the first alloy and the difference in the hardness between the first alloy and the second alloy is HRC 44 or more. 8. A method, comprising: providing the cladding according to claim 1 , chemically or mechanically fastening the first alloy of the cladding according to claim 1 to a member of an extruder or kneader such that the second alloy is positioned to receive an abrasion load that is applied to the member of the extruder or kneader, and exposing the second alloy of the member to an environment in which the second alloy the member of the extruder or kneader receives the abrasion load. 9. The cladding according to claim 2 , wherein the hardness of the first alloy is HRC 5 or less. 10. The cladding according to claim 3 , wherein the hardness of the first alloy is HRC 5 or less. 11. The cladding according to claim 1 , wherein the hardness of the first alloy is HRC 4 or less. 12. The cladding according to claim 1 , wherein the hardness of the first alloy is HRC 3 or less. 13. The method according to claim 8 , wherein the hardness of the first alloy is HRC 5 or less.