Porous metal body and method for producing same

The invention claimed is: 1. A porous metal body having a skeleton with a three-dimensional network structure and comprising at least nickel, tin, and chromium, wherein a concentration of chromium contained in the porous metal body is highest at a surface of the skeleton of the porous metal body and decreases toward an inner side of the skeleton, the concentration of chromium at the surface of the skeleton is 4 to 30 times higher than an average chromium concentration of the skeleton. 2. The porous metal body according to claim 1 , wherein the concentration of chromium at the surface of the skeleton of the porous metal body is 3% by mass or more and 70% by mass or less. 3. A method for producing the porous metal body according to claim 1 , the method comprising: a conductive coating layer forming step of forming a conductive coating layer on a surface of a porous base composed of a resin material; a nickel layer forming step of forming a nickel layer on a surface of the conductive coating layer; a chromium-dispersed tin layer forming step of forming a tin layer on a surface of the nickel layer, the tin layer containing dispersed chromium particles; and a heat treatment step of inducing interdiffusion of metal atoms between the nickel layer and the tin layer containing dispersed chromium particles. 4. The method for producing the porous metal body according to claim 3 , wherein the chromium-dispersed tin layer forming step includes a chromium-particle-dispersing step of supplying chromium particles to a tin plating bath and stirring the tin plating bath to disperse the chromium particles in the tin plating bath; and a chromium-dispersed tin plating step of immersing the nickel layer in the tin plating bath. 5. A method for producing the porous metal body according to claim 1 , the method comprising: a conductive coating layer forming step of forming a conductive coating layer on a surface of a porous base composed of a resin material; a nickel layer forming step of forming a nickel layer on a surface of the conductive coating layer; a tin layer forming step of forming a tin layer on a surface of the nickel layer; a chromium layer forming step of forming a chromium layer on a surface of the tin layer; and a heat treatment step of inducing interdiffusion of metal atoms between the nickel layer, the tin layer, and the chromium layer. 6. The method for producing the porous metal body according to claim 5 , wherein, in the chromium layer forming step, the chromium layer is formed on the surface of the tin layer by a gas phase method. 7. The method for producing the porous metal body according to claim 5 , wherein, in the chromium layer forming step, the chromium layer is formed on the surface of the tin layer by immersing the tin layer in a chromium plating bath. 8. The method for producing the porous metal body according to claim 5 , wherein, in the chromium layer forming step, the chromium layer is formed on the surface of the tin layer by applying a mixture of chromium particles and a binder to the surface of the tin layer. 9. A method for producing the porous metal body according to claim 1 , the method comprising: a conductive coating layer forming step of forming a conductive coating layer on a surface of a porous base composed of a resin material; a nickel-tin alloy layer forming step of forming a nickel-tin alloy layer on a surface of the conductive coating layer; a chromium layer forming step of forming a chromium layer on a surface of the nickel-tin alloy layer; and a heat treatment step of inducing interdiffusion of metal atoms between the nickel-tin alloy layer and the chromium layer. 10. The method for producing the porous metal body according to claim 9 , wherein, in the chromium layer forming step, the chromium layer is formed on the surface of the nickel-tin alloy layer by a gas phase method. 11. The method for producing the porous metal body according to claim 9 , wherein, in the chromium layer forming step, the chromium layer is formed on the surface of the nickel-tin alloy layer by immersing the nickel-tin alloy layer in a chromium plating bath. 12. The method for producing the porous metal body according to claim 9 , wherein, in the chromium layer forming step, the chromium layer is formed on the surface of the nickel-tin alloy layer by applying a mixture of chromium particles and a binder to the surface of the nickel-tin alloy layer.