[1] NABAWY B S, WASSIF N A. Effect of the mineralogical composition on the petrophysical behavior of the amygdaloidal and vesicular basalt of Wadi Wizr, Eastern Desert, Egypt［J］. Journal of African Earth Sciences, 2017, 134: 613-625.

[2] TANG D L, XIAO Q L. Mechanical properties research base on porous basalt［J］. Electrinic Journal of Geotechnical Engineering, 2014, 19: 8295-8304.

[3] HUANG S G, CHEN J J, WANG J X, et al. Preparation of porous basalt aggregate concrete for railway sleepers and its microstructure［J］. Materials Reports, 2020, 34(24): 24045-24054+24067.

[5] LI W, LANG L, LIN Z Y, et al. Characteristics of dry shrinkage and temperature shrinkage of cement-stabilized steel slag［J］. Construction and Building Materials, 2017, 134: 540-548.

[6] WANG T L, SONG H F, YUE Z R, et al. Freeze-thaw durability of cement-stabilized macadam subgrade and its compaction quality index［J］. Cold Regions Science and Technology, 2019, 160: 13-20.

[7] TRAN N P, GUNASEKARA C, LAW D W, et al. A critical review on drying shrinkage mitigation strategies in cement-based materials［J］. Journal of Building Engineering, 2021, 38: 102210.

[8] SUN X Y, WU S Y, YANG J, et al. Mechanical properties and crack resistance of crumb rubber modified cement-stabilized macadam［J］. Construction and Building Materials, 2020, 259: 119708.

[13] MA Y H, GU J Y, LI Y, et al. The bending fatigue performance of cement-stabilized aggregate reinforced with polypropylene filament fiber［J］. Construction and Building Materials, 2015, 83: 230-236.

[20] SHENG Y P, JIA H C, GUO S C, et al. Effect of brucite fibers and early strength agent on cement stabilized macadam in Alpine regions［J］. International Journal of Pavement Research and Technology, 2019, 12(3): 315-324.

[21] ZHAO Y, YANG X, ZHANG Q Y, et al. Crack resistance and mechanical properties of polyvinyl alcohol fiber-reinforced cement-stabilized macadam base［J］. Advances in Civil Engineering, 2020, 2020: 6564076.