The metal injection mold (MIM) process is the most cost effective, highest quality means to produce complex shaped, high performance parts. In the MIM process, debinding is a key step for successful MIM. However, the conventional clebinding processes, which are thermal debinding and solvent debinding, have disadvantages that include long product development times, and harm to the environment. Therefore, the study of super-critical CO2 that can be used as solvent for debinding, a new debinding technology as substitute for a conventional technology, was considered. In this paper, we used two methods to investigate a method for reducing debinding time as well as lowering operation condition other than pure supercritical CO2 debinding: the first method was to add cosolvent in supercritical CO2, the second method was to use the mixture of propane + CO2, as the supercritical solvent. It was found that the addition of cosolvents and the use of binary mixture propane + CO2 for supercritical solvent remarkably improved the binder removal rate, in comparison with using pure supercritical CO2.