A composite material of decalcified bone matrix (DBM) and bone cement (BC) combined with bovine bone morphogenitic protein (bBMP) was used to repair canine femoral defect caused by microwave induced hyperthermia. The composite material was examined with scan electron microscope and its biomechanical properties were assessed. Then a canine femoral defect was produced by microwave induced hyperthermia, and the composite material was implanted.Then the femurs were examined with X ray, 99m Tc MDP bone scintigraphy, histology and biomechanics at different postoperative periods. It was found that DBM and BC were tightly connected in a multipolar mode with irregular gaps in a diameter of 400?m to 800?m. Callus was formed in the first month and its amount was most abundant in the third month as shown by X ray examination. The new bone was formed in the composite material,and it was confirmed by bone scintigraphy and histology. The border of new bone was connected with the normal bone. So the composite material could merge with the normal bone finally.