Alloy plate coated material and method of producing alloy plate coated material

What is claimed is: 1. An alloy plate coated material comprising: a stainless steel sheet which has a passivation film having a Cr/O value (molar ratio of Cr/O) in the range of 0.09 to 0.20 and a Cr/Fe value (molar ratio of Cr/Fe) in the range of 0.55 to 0.80 at the surface as measured by an Auger electron spectroscopy analysis on the stainless steel sheet; and an alloy plate layer formed on the passivation film of the stainless steel sheet and formed from a M1-M2-M3 alloy, wherein in the M1-M2-M3 alloy, M1 is at least one element selected from Ni, Fe, Co, Cu, Zn and Sn; M2 is at least one element selected from Pd, Re, Rh, Ag and Ru; and M3 is at least one element selected from P and B, and the alloy plate layer has a molar ratio of M1 to M2 (M1/M2) of 0.005 to 0.5. 2. The alloy plate coated material according to claim 1 , wherein the alloy plate layer has a glass transition point. 3. The alloy plate coated material according to claim 1 , wherein the alloy plate layer has a structure which contains an amorphous portion of the M1-M2-M3 alloy. 4. The alloy plate coated material according to claim 1 , wherein in regard to the alloy plate layer, the diffraction profile analyzed by a grazing incidence X-ray diffraction method using an X-ray diffractometer, has a shape which has a halo originating from an amorphous structure. 5. The alloy plate coated material according to claim 1 , wherein a ratio of each element in the M1-M2-M3 alloy is that M1 is 20 to 50 at %, M2 is 30 to 50 at %, and M3 is 20 to 30 at %. 6. The alloy plate coated material according to claim 1 , further comprising a modifying layer between the stainless steel sheet and the alloy plate layer to enhance the interfacial adhesion property between the stainless steel sheet and the alloy plate layer. 7. The alloy plate coated material according to claim 1 , wherein the alloy plate layer is formed from a Ni—Pd—P alloy.