Solid oxide fuel cell and manufacturing method of the same

What is claimed is: 1. A solid oxide fuel cell comprising: a support of which a main component is a metal; an anode supported by the support; and a mixed layer provided between the support and the anode, wherein the anode includes a first oxide which is LaCrO 3 -based perovskite of which an A site is only La and of which a B site is only Cr and Ti and a second oxide having oxygen ion conductivity, wherein the support, the mixed layer and the anode are sintered bodies which are obtained by arranging a powder material of a LaCrO 3 -based material and a powder metal material for the mixed layer mixed together with a width in a stacking direction, on a powder metal material for the support, and arranging a powder material including the first oxide on the powder material of a LaCrO 3 -based material and a powder metal material for the mixed layer, and sintering the powder metal material for the support, the powder material of a LaCrO 3 -based material and the powder metal material for the mixed layer, and the powder material including the first oxide, wherein the LaCrO 3 -based material of the mixed layer is LaCrO 3 -based perovskite of which an A site is only La and of which a B site is only Cr or only Cr and Ti, wherein the anode forms an electrode bone structure with the first oxide and the second oxide having oxygen ion conductivity, wherein the bone structure contains no metallic component, is spatially continuously formed, and includes pores and catalysts, and wherein each of the catalysts is carried on a surface exposed to each of the pores, wherein an ohmic resistance of the solid oxide fuel cell as a whole is 0.26 Ω·cm 2 or less, and wherein a reaction resistance of the anode is 0.28 Ω·cm 2 or less. 2. The solid oxide fuel cell as claimed in claim 1 , wherein {an area of CrO 3 /(the area of CrO 3 and an area of the first oxide)} is 10% or less, in a cross section of the anode. 3. The solid oxide fuel cell as claimed in claim 1 , wherein an area ratio of a total of the first oxide/a total of (the first oxide+the second oxide+the pores) in the cross section of the anode is 20% or more and 60% or less, wherein an area ratio of a total of the second oxide/the total of (the first oxide+the second oxide+the pores) in the cross section of the anode is 20% or more and 60% or less, and wherein an area ratio of a total of the pores/the total of (the first oxide+the second oxide+the pores) in the cross section of the anode is 20% or more and 60% or less. 4. The solid oxide fuel cell as claimed in claim 1 , wherein a porosity in the support, a porosity in the mixed layer, and a porosity in the anode have a relationship of the porosity in the support>the porosity in the mixed layer>the porosity in the anode. 5. The solid oxide fuel cell as claimed in claim 1 , wherein each of the catalysts includes a catalyst metal and a third oxide having oxygen ion conductivity. 6. The solid oxide fuel cell as claimed in claim 1 , wherein the second oxide is scandia yttria stabilized zirconium oxide. 7. The solid oxide fuel cell as claimed in claim 1 , wherein {an area of CrO 3 /(the area of CrO 3 and an area of the first oxide)} is 5% or less, in a cross section of the anode. 8. The solid oxide fuel cell as claimed in claim 1 , wherein the second oxide of the anode is scandia yttria stabilized zirconium oxide; and wherein the catalysts are Gd-doped ceria and Ni. 9. The solid oxide fuel cell as claimed in claim 1 , wherein the LaCrO 3 -based material of the mixed layer is LaCr x Ti 1-x O 3 and x is 0.5 or more and less than 1. 10. The solid oxide fuel cell as claimed in claim 1 , wherein an A site of the LaCrO 3 -based material of the mixed layer is only La, and wherein a B site of the LaCrO 3 -based material of the mixed layer is only Cr and Ti. 11. The solid oxide fuel cell as claimed in claim 1 , wherein the first oxide is LaCr x Ti 1-x O 3 and x is 0.5 or more and less than 1. 12. The solid oxide fuel cell as claimed in claim 1 , wherein a ratio of the reaction resistance to the ohmic resistance is 1.12 or less.