[1] LI V CMISHRA D KNAAMAN A Eet al. On the shear behavior of engineered cementitious composites[J]. Advanced Cement Based Materials19941(3): 142-149.
[2] LI V CLEUNG C K Y. Steady-state and multiple cracking of short random fiber composites[J]. Journal of Engineering Mechanics1992118(11): 2246-2264.
[3] LI V C. Engineered cementitious composites tailo-red composites through micromechanical modeling[J]. Canadian Society for Civil Engineering1998: 64-97.
[4] PAN Z FWU CLIU J Zet al. Study on mechanical properties of cost-effective polyvinyl alcohol engineered cementitious composites (PVA-ECC)[J]. Construction and Building Materials201578: 397-404.
[5] PEREIRA E BFISCHER GBARROS J A O. Direct assessment of tensile stress-crack opening behavior of strain hardening cementitious composites (SHCC)[J]. Cement and Concrete Research201242(6): 834-846.
[7] LI V C. From micromechanics to structural engineering-the design of cementitious composites for civil engineering applications[J]. Structural Engineering/Earthquake Engineering199410(2): 1-34.
[8] MARSHALL D BCOX B N. A J-integral method for calculating steady-state matrix cracking stresses in composites[J]. Mechanics of Materials19887(2): 127-133.
[9] KANDA TLI V C. Practical design criteria for saturated pseudo strain hardening behavior in ECC[J]. Journal of Advanced Concrete Technology20064(1): 59-72.
[10] MA HCAI J MLIN Zet al. CaCO3 whisker modified engineered cementitious composite with local ingredients[J]. Construction and Building Materials2017151: 1-8.
[11] PICHLER CLACKNER RMANG H A. A multiscale micromechanics model for the autogenous-shrinkage deformation of early-age cement-based materials[J]. Engineering Fracture Mechanics200774(1/2): 34-58.
[14] ZHOU JQIAN S ZYE Get al. Improved fiber distribution and mechanical properties of engineered cementitious composites by adjusting the mixing sequence[J]. Cement and Concrete Composites201234(3): 342-348.