The effects of sericite particle size,rotation speed,and leaching temperature on sericite dissolution and copper extraction in a chalcopyrite bioleaching system were examined. Finer particles,appropriate temperature and rotation speed for Acidithiobacillus ferrooxidans resulted in a higher Al~(3+) dissolution concentration. The Al~(3+) dissolution concentration reached its highest concentration of 38.66 mg/L after 48-d leaching when the sericite particle size,temperature,and rotation speed were-43 μm,30°C,and 160 r/min,respectively. Meanwhile,the sericite particle size,rotation speed,and temperature can affect copper extraction. The copper extraction rate is higher when the sericite particle size is finer. An appropriately high temperature is favorable for copper leaching. The dissolution of sericite fitted the shrinking core model,1 –(2/3)a –(1 – a)~(2/3) = k_1 t,which indicates that internal diffusion is the decision step controlling the overall reaction rate in the leaching process. Scanning electron microscopy analysis showed small precipitates covered on the surface of sericite after leaching,which increased the diffusion resistance of the leaching solution and dissolved ions. The effects of sericite particle size, rotation speed, and leaching temperature on sericite dissolution and copper extraction in a chalcopyrite bioleaching system were examined. Finer particles, appropriate temperature and rotation speed for Acidithiobacillus ferrooxidans resulted in a higher Al ~ (3 +) dissolution concentration . The Al ~ (3+) dissolution concentration reached its highest concentration of 38.66 mg / L after 48-d leaching when the sericite particle size, temperature, and rotation speed were-43 μm, 30 ° C, and 160 r / min, respectively. Meanwhile, the sericite particle size, rotation speed, and temperature can affect copper extraction. The copper extraction rate is higher when the sericite particle size is finer. The dissolution of sericite fitted the shrinking core model, 1 - (2/3) a - (1 - a) ~ (2/3) = k_1 t, which indicates that internal diffusion is the decision step controlling the overall reaction rate in the leaching process. Scanning electron microscopy analysis showed small precipitates covered on the surface of sericite after leaching, which increased the diffusion resistance of the leaching solution and dissolved ions.