Based on the crystallization fracture principle of ice forms in porous cement-based materials and initiates cracking during freezing-thawing cycles， freezing-thawing modification experiments of recycled coarse aggregate under different working conditions were carried out to remove part or all of the attached old mortar. The results show that the lower of the minimum freezing-thawing temperature is， the faster of the peeling of the attached mortar is. After a certain number of freezing-thawing cycles， the attached mortar is almost completely peeled off. Besides， the physical and mechanical properties of the modified recycled coarse aggregate are close to those of natural aggregate. In addition， the high temperature drying treatment before freezing-thawing cycles improves the efficiency of the method. Finally， based on thermodynamics and poromechanics principles， the process of freezing and cracking to remove the attached mortar is analyzed and simulated in a mesoscopic model.