Fuel cell and manufacturing method of expanded metal

The invention claimed is: 1. A fuel cell comprising: a gas diffusion layer; a separator having left and right end portions, and upper and lower end portions; and an oxidizing gas flow path that is arranged vertically between the gas diffusion layer and the separator so that oxidizing gas flows in a vertical direction, and that is formed from expanded metal, wherein the expanded metal includes meshes; the expanded metal includes an upstream first expanded metal that does not have an opening that is formed by a mesh of the meshes, such that the oxidizing gas that flows on the gas diffusion layer side does not communicate with oxidizing gas that flows on the separator side, and a downstream second expanded metal that has an opening that communicates oxidizing gas that flows on the gas diffusion layer side with oxidizing gas that flows on the separator side; the first expanded metal is expanded metal in which adjacent meshes are arranged in the straight line in view of a flow direction of the oxidizing gas; and the second expanded metal is expanded metal in which adjacent meshes are staggered in view of a flow direction of the oxidizing gas. 2. The fuel cell according to claim 1 , wherein a ratio of the first expanded metal to the oxidizing gas flow path is no less than 1/3 and no more than 1/2. 3. The fuel cell according to claim 2 , wherein the ratio of the first expanded metal to the oxidizing gas flow path is substantially 0.3. 4. The fuel cell according to claim 1 , further comprising: a cathode manifold that supplies oxidizing gas to the oxidizing gas flow path; and a gas diffusion member that is arranged between the cathode manifold and the first expanded metal, that diffuses oxidizing gas from the cathode manifold, and that causes the diffused oxidizing gas to flow into the first expanded metal. 5. The fuel cell according to claim 4 , wherein the gas diffusion member is formed from expanded metal that is similar to the second expanded metal. 6. The fuel cell according to claim 4 , wherein the gas diffusion member is formed by arranging the second expanded metal between the first expanded metal and the cathode manifold. 7. The fuel cell according to claim 1 , wherein a ratio of the first expanded metal to the oxidizing gas flow path is no less than 1/3 and no more than 1/2. 8. The fuel cell according to claim 7 , wherein the ratio of the first expanded metal to the oxidizing gas flow path is substantially 0.3. 9. The fuel cell according to claim 1 , further comprising: a cathode manifold that supplies oxidizing gas to the oxidizing path; and a gas diffusion member that is arranged between the cathode manifold and the first expanded metal, that diffuses oxidizing gas from the cathode manifold, and that causes the diffused oxidizing gas to flow into the first expanded metal. 10. The fuel cell according to claim 9 , wherein the gas diffusion member is formed from expanded metal that is similar to the second expanded metal. 11. The fuel cell according claim 9 , wherein the gas diffusion member is formed by arranging the second expanded metal between the first expanded metal and the cathode manifold.