ABSTRACT During underground construction, the soil deposit with high permeability and low stability is often encountered, and the permeation grouting is needed to improve the ground condition. However, due to selecting unsuitable grout material, grout viscosity and injection pressure, the purpose of ground improvement cannot be achieved. This may use excavation failure and endanger the adjacent buildings due to sand boiling, piping and uplifting problems. This study establishes a system to evaluate the grout type, grout viscosity, injection pressure and injection rate of permeation grouting. A microfine cement is used to run through this system for a testing. First, specific gravity, setting time and stability testing of microfine cement are tested. Then viscometer is used to evaluate the rheology of microfine cement grout under various shear speeds. The penetrability testing on cylindrical sample (3.78cm in diameter and 36.8cm in height) is conducted to verify the penetrability of grout, which can be evaluated by Penetrability Ratio on the base of the gradations of soil and grout. The grouted soil samples are tested for coefficient of permeability and unconfined compression strength. Finally, the same soil deposit is prepared in the calibration chamber for permeation grouting. The grout is made of microfine cement with water-to-cement ratio of 3 plus 2% dispersant by weight of cement. The injection pressure and grout take are monitored during grouting. The grouted soil is excavated to study the size and shape of treated zone, and the permeation grouting mechanism. The testing results indicate that the setting time and bleeding will vary with water-to-cement ratio, dispersant content and curing time. The behavior of microfine cement grout is similar to Bingham fluid. The penetrability of grout improves when water-to-cement ratio and injection pressure increase. However, in the grouted soil, the coefficient of permeability increases and unconfined compression strength decreases when water-to-cement ratio increases. The permeation grouting in a poorly graded sand with Cu at 3.71 and Cd at 0.86 is successful, the monitored grout take is 2,650ml and is closed to estimated grout take 3,066ml from the volume of grouted soil.