In this study, the mineral sludge waste (MSW) from processing granite rock is recycled for producing high performance concrete (HPC). The Densified Mixture Designed Algorithm (DMDA) is applied to design HPC with different water-to-binder ratios (W/B = 0.23, 0.35 and 0.47), and the effect of using MSW on the properties of HPC is investigated and compared with fly ash (FA) HPC. The results show the chemical composition of MSW is similar to FA but it will act as inert material due to the crystal phase. MSWHPC can have a flowing character and the early age compressive strength is slightly higher than FAHPC. As W/B = 0.23, the 91-day compressive strength of MSWHPC is greater than 700 kgf/cm^2 and its ultrasonic pulse velocity (UPV) is greater than 4,950 m/s. The chloride penetration of MSWHPC is similar to FAHPC in the ”Low” range. As W/B = 0.35 and 0.47, the micro-structure of MSWHPC is loose and its strength is lower than that of FAHPC. However, the addition of FA to replace part of MSW can effectively improve the medium and long-term compressive strength, density and permeability.