JOURNAL OF YANGTZE RIVER SCIENTIFIC RESEARCH INSTI ›› 2019, Vol. 36 ›› Issue (3): 103-109.DOI: 10.11988/ckyyb.20170837

• ROCK-SOIL ENGINEERING • Previous Articles     Next Articles

Loess Solidified by Industrial Waste Residue Composite Curing Agent: Strength Performance and Influential Factors

ZHANG Yu-chuan1,2, QIAO Zi-qin1,2, GAO Fei1,2, ZHU Ke-wen1,2, YANG Qin1,2   

  1. 1.Key Laboratory of Mechanics on Western Disaster and Environment of Ministry of Education, Lanzhou University, Lanzhou 730000, China;
    2.College of Civil Engineering and Mechanics, Lanzhou University, Lanzhou 730000, China
  • Received:2017-07-25 Online:2019-03-01 Published:2019-03-20

Abstract: Industrial waste residue combined with cement is of remarkable economic and environmental benefits in solidifying soil by enhancing soil strength and improving residue utilization. A ternary gel system composing fly ash, desulfurized gypsum, and cement is applied to solidify loess in this research. CaOH2 and NaOH are selected as activators of the composite curing agent. Through orthogonal experiments, the influence degree of each component of the composite curing agent on unconfined compressive strength is examined, and the optimum mixing ratio is determined. On this basis, the impacts of loess water content, water-cement ratio, and early strength agent on the strength of the solidified loess are investigated and compared with those of cement-improved loess. Result shows that the strength growth rate solidified by the composite curing agent in middle and late age is higher than that of cement-improved loess, with the 90 day strength amounting to 6.85 MPa, equivalent to that of cement-improved loess with 20% cement mixing ratio. When the water content of composite solidified loess is about 20%, the strength reaches to the maximum at all ages. Triethanolamine and sodium silicate can be used as early strength agent for the composite solidified loess. In addition, XRD diffraction pattern and SEM microstructure verified the curing principle and strength law.

Key words: fly ash, desulfurized gypsum, composite solidified loess, unconfined compressive strength, orthogonal experiment, XRD test, SEM microstructure

CLC Number: 

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