Both of the SSOS and the SSRS are the products produced by the stainless plant. The purpose of the research is to explore the feasibility and workability of the CLSM when the SSOS replace the fine aggregate and the SSRS replace the binder. The variables of research include the binder is about 130 kg/m3 to result that W/B is 1.1, 1.3 and 1.5, respectively. The weight ratios of SSOS replacing the fine aggregate are 0%, 50%, 75% and 100%. The weight ratios of the SSRS replacing the binder are 0%, 25%, and 50%. The results shows utilizing the SSOS and the SSRS can produce the CLSM meeting the requirement of the engineering property. When the SSOS replacing fine aggregate will reach 50%, it is the best workability. The heavy specific gravity of the fine aggregate deposit easily to cause the segregation of the fine aggregate when the SSOS replacing fine aggregate will reach 100%. As the SSOS replace the fine aggregate more, the unit weight and pulse velocity of CLSM raise, but the setting time reduce. When the proportion of the SSRS replacing the binder reaches from 25% to 50%, the binder can effectively enough to wrap up the fine aggregate, making other aggregate flow to increase the workability of CLSM, and as the SSRS replace the binder more, the setting time of CLSM increase relatively.