Waste concrete can be crushed to produce a large amount of recycled aggregate(RA) and recycled fine powder(RFP). Different recycled components have different characteristics. RA should focus on its pretreatment method, while RFP should focus on its morphology and volcanic ash activity. This study investigated the effects of two single and composite strengthening methods in RA, mechanical vibration and acid solution immersion. The results showed that the composite strengthening method was more effective in improving the properties of RA, which resulted in an increase in apparent density and bulk density by 5.59 % and 12.55 %, respectively, and a decrease in crush value and water absorption by 26.05 % and 15.52 %, respectively. Three methods were used to analyze the volcanic ash activity of RFP with different particle sizes, and the RFP with a particle size of 23.08 μm has a high volcanic ash activity, which can effectively play its role of filling and volcanic ash activity in recycled concrete. Based on the preferred pre-treated RA and RFP, the effect of RA and RFP on the macroscopic and microscopic properties of recycled concrete under different mixing amounts was studied, and the results showed that the compressive strength of 20 % RA single mixing could reach 40.17 MPa, and that the compressive strength of 20 % RFP single mixing could reach 38.6 MPa, and both of them had no significant effect on the frost resistance. Further, 20 % RA and 20 % RFP were compounded to prepare recycled concrete, and the results showed that the compressive strength of RA-RFP was slightly improved to 40.12 MPa, and the mechanism of its action was explained by microscopic analysis. Finally, the environmental impact and carbon emission reduction of the life cycle of RA and RFP were evaluated, and the results showed that the utilization of recycled materials can play an effective environmental benefit.