Conventional anode support of solid oxide fuel cell (SOFC) was made with Ni-YSZ cermet materials which had drawbacks of high cost and performance reduce due to carbon deposition with hydrocarbon fuel gas. The high chromium contained Fe-Cr alloy are good candidates for anode support due to its low cost and pretty well high temperature oxidation resistance. Besides, the coefficient of thermal expansion of Fe-Cr alloy is close to the solid electrolyte. The aim of this research is to develop copper contained dual layer powders to improve porous substrate. The metal powders were made by rotating electrode process and the powder has a structure of dual layers. The inner layer is ss430 and the outer layer is copper to reduce carbon soot. We mixed the powders with commercial ss430 fine powders and PMMA pore formers. Porous substrates were prepared by die-pressing and sintered in hydrogen. The sintered specimens were then evaluated with high temperature oxidation resistance test, porosity, high temperature ASR test, permeability test and Vickers hardness test.