Multilayered sintered plate and manufacturing method thereof

The invention claimed is: 1. A multilayered sintered plate comprising: a backing plate; and a porous sintered alloy layer which is integrally joined to one surface of said backing plate, wherein said porous sintered alloy layer is consisting of 30 to 50% by mass of nickel, 1 to 10% by mass of phosphorus, 2.5 to 10% by mass of tin, and the balance iron and inevitable impurities, and has a structure which includes a matrix phase containing an iron-nickel-tin alloy and a hard phase precipitated in the matrix phase and containing a nickel-phosphorus-iron-tin alloy. 2. The multilayered sintered plate according to claim 1 , wherein the matrix phase has a micro Vickers hardness (HMV) of at least 220, and the hard phase has a micro Vickers hardness (HMV) of at least 700. 3. The multilayered sintered plate according to claim 1 , wherein the backing plate is comprised of a ferritic, austenitic, or martensitic stainless steel plate, and the one surface of said backing plate is one surface of the stainless steel plate. 4. The multilayered sintered plate according to claim 1 , wherein said backing plate is comprised of a ferritic, austenitic, or martensitic stainless steel plate and of a nickel coating covering at least one surface of the stainless steel plate, and the one surface of said backing plate is one surface of the nickel coating. 5. The multilayered sintered plate according to claim 1 , wherein said backing plate is comprised of a rolled steel plate for general structure or a cold rolled steel plate, and the one surface of said backing plate is one surface of the rolled steel plate for general structure or the cold rolled steel plate. 6. The multilayered sintered plate according to claim 1 , wherein said backing plate is comprised of a rolled steel plate for general structure or a cold rolled steel plate and of a nickel coating covering one surface of the rolled steel plate for general structure or the cold rolled steel plate, and the one surface of said backing plate is one surface of the nickel coating. 7. A method of manufacturing a multilayered sintered plate having a backing plate and a porous sintered alloy layer joined integrally to one surface of the backing plate, comprising the steps of: (a) preparing as the backing plate a steel plate formed of a ferritic, austenitic or martensitic stainless steel plate, or a rolled steel plate for general structure or a cold rolled steel plate; (b) producing a molten metal by melting raw material metals including predetermined amounts of simple substance iron, simple substance nickel, an iron-phosphorus alloy, a nickel-phosphorus alloy; and simple substance tin which are capable of obtaining an alloy consisting of 30 to 50% by mass of nickel, 1 to 10% by mass of phosphorus, 2.5 to 10% by mass of tin; and the balance iron and inevitable impurities, and finely pulverizing the molten metal by an atomization process to thereby produce an atomized alloy powder; and (c) spreading the atomized alloy powder onto the one surface of said backing plate and sintering, in a sintering furnace adjusted to a reducing atmosphere, said thus-treated backing plate for 5 to 10 minutes at a temperature of 890° C. to 930° C., thereby integrally joining to the one surface of said backing plate a porous sintered alloy layer composed of 30 to 50% by mass of nickel, 1 to 10% by mass of phosphorus, 2.5 to 10% by mass of tin, and the balance iron and inevitable impurities, wherein the porous sintered alloy layer joined integrally to the one surface of said backing plate formed of the steel plate has a structure which includes a matrix phase containing an iron-nickel-tin alloy and a hard phase containing a nickel-phosphorus-iron-tin alloy precipitated in the matrix phase. 8. A multilayered sintered plate comprising: a backing plate; and a porous sintered alloy layer which is integrally joined to one surface of said backing plate, wherein said porous sintered alloy layer does not include copper and comprises 30 to 50% by mass of nickel, 1 to 10% by mass of phosphorus, 2.5 to 10% by mass of tin, and the balance iron and inevitable impurities, and has a structure which includes a matrix phase containing an iron-nickel-tin alloy and a hard phase precipitated in the matrix phase and containing a nickel-phosphorus-iron-tin alloy. 9. The multilayered sintered plate according to claim 8 , wherein the matrix phase has a micro Vickers hardness (HMV) of at least 220, and the hard phase has a micro Vickers hardness (HMV) of at least 700. 10. The multilayered sintered plate according to claim 8 , wherein the backing plate is comprised of a ferritic, austenitic, or martensitic stainless steel plate, and the one surface of said backing plate is one surface of the stainless steel plate. 11. The multilayered sintered plate according to claim 8 , wherein said backing plate is comprised of a ferritic, austenitic, or martensitic stainless steel plate and of a nickel coating covering at least one surface of the stainless steel plate, and the one surface of said backing plate is one surface of the nickel coating. 12. The multilayered sintered plate according to claim 8 , wherein said backing plate is comprised of a rolled steel plate for general structure or a cold rolled steel plate, and the one surface of said backing plate is one surface of the rolled steel plate for general structure or the cold rolled steel plate. 13. The multilayered sintered plate according to claim 8 , wherein said backing plate is comprised of a rolled steel plate for general structure or a cold rolled steel plate and of a nickel coating covering one surface of the rolled steel plate for general structure or the cold rolled steel plate, and the one surface of said backing plate is one surface of the nickel coating.