Since municipal solid waste incinerator (MSWI) fly ash contains a lot of heavy metals, which exceed the regulatory limits of hazardous waste usually, and the disposal of fly ash has presented a significant problem. Consequently, the stabilizing and recovering of MSWI fly ash is the majority trend, and sintering is a potentially technology in the future. In the study, the characteristics of heavy metals volatilities of MSWI fly ash handled by water-extraction and then high energy ball milling with different stabilizers were investigated. The particle size analyzer, X-ray diffraction (XRD) and scanning electron microscope (SEM) were used to exam the properties after milling. The hydrofluoric acid digestion was applied to evaluate the heavy metals volatilities of the ashes. The results showed that, the addition of 30% Al2O3 with 0.8 M phosphoric acid ball milling, the volatility of Zn and Pb could be controlled within 20-30% in the sintering temperature of 800 and 1,000 oC, which can also control the volatility in 41% and 22%at 1200 oC relatively. The compression strength of regenerated aggregate was increased with the elevation of temperature gradually, reached 344 kg/cm2 at 1,200 oC, which reached the criteria of constructional aggregate. Key words: MSWI fly ash, high energy ball milling, heavy metals, stabilization, sintering, regenerated aggregate.