Author(s)

Jin Ran^1,2, Jinxi Zhang¹

¹Beijing Key Laboratory of Traffic Engineering, Beijing University of Technology, Beijing, China.
²Key Laboratory of Expressway Maintenance Technology of Ministry of Transport (Jinan), Jinan, China.

In some cases of emergency backfill engineering projects, traditional backfill materials cannot meet the requirements of fast construction due to their long curing time. This study presents a new kind of rapid hardening controlled low strength material, which utilizes both rapid hardening sulphoaluminate cement and recycled fine aggregate from urban red brick construction waste. Totally, sixteen mixtures were prepared for the experiment with different cement-to-sand ratios and water-to-solid ratios. The flowability and bleeding rate of fresh mixture were measured to evaluate its workability, and the compressive strength of hardened mixture was tested to evaluate its rapid hardening and mechanical properties. Test results indicate that rapid hardening controlled low strength material containing recycled fine aggregate from urban red brick construction waste can achieve the desirable flowability, but the bleeding rate increases with the increase of flowability. In addition, 2-hour compressive strength can reach 0.08 - 0.12 MPa, and 4-hour compressive strength is 0.32 - 1.54 MPa, which can meet the requirements of emergency backfill construction. At last, based on the derived compressive strength, a fitting model for predicting compressive strength evolution of this new rapid hardening backfill material is developed, which fits accurately with these experimental data.

Controlled Low Strength Material, Rapid Hardening Sulphoaluminate Cement, Recycled Fine Aggregate, Construction Waste, Urban Red Brick, Workability, Compressive Strength

Ran, J. and Zhang, J. (2017) Properties of Rapid Hardening Controlled Low Strength Material Made of Recycled Fine Aggregate from Urban Red Brick Construction Waste. World Journal of Engineering and Technology, 5, 188-197. doi: 10.4236/wjet.2017.52015.