Study on mechanical properties of cost-effective polyvinyl alcohol engineered cementitious composites (PVA-ECC)

Naaman AE. High performance fiber reinforced cement composites. In: Proceedings of the IABSE symposium on concrete structures for the future, Paris, France; 1987, p. 371–6.

Li, 1992, Steady state and multiple cracking of short random fiber composites, J Eng Mech ASCE, 188, 2246, 10.1061/(ASCE)0733-9399(1992)118:11(2246)

Li, 1993, Micromechanics of crack bridging in fiber reinforced concrete, Mater Struct, 26, 486, 10.1007/BF02472808

Li VC. Engineered cementitious composites—tailored composites through micromechanical modeling. In: Banthia N, Bentur A, Mufri A, editors. Fiber-reinforced concrete: present and the future. Montreal, Canada: Canadian Society for Civil Engineering; 1998. p. 64–97.

Li, 2007

Wittmann FH, Wilhelm T, Beltzung F, Grübl P. Multi-crack formation in strain hardening cement-based composites. In: Reinhardt HW, Naaman AE, editors. Fifth international RILEM workshop on high performance fiber reinforced cement composites (HPFRCC5), Paris, France; 2007. p. 125–34.

Japan Society of Civil Engineers (JSCE). Recommendations for design and construction of high performance fiber reinforced cement composites with multiple fine cracks. Tokyo, Japan; 2008.

Xu, 2010, Experimental study and theoretical models on compressive properties of ultra high toughness cementitious composites, J Mater Civ Eng ASCE, 22, 1067, 10.1061/(ASCE)MT.1943-5533.0000109

Li QH, Xu SL. A design concept with the use of RUHTCC beam to improve crack control and durability of concrete structures. Mater Struct 2011;44(6):1151–77.

Kanda, 1998, Interface property and apparent strength of high-strength hydrophilic fiber in cement matrix, J Mater Civ Eng ASCE, 10, 5, 10.1061/(ASCE)0899-1561(1998)10:1(5)

Zhang, 2014, Investigating mechanical properties and self-healing behavior of micro-cracked ECC with different volume of fly ash, Constr Build Mater, 52, 17

Huang, 2013, Mechanical and thermal properties of green lightweight engineered cementitious composites, Constr Build Mater, 48, 954, 10.1016/j.conbuildmat.2013.07.104

Pan, 2012, Effect of composition on flexural behavior of engineered cementitious composites, Sci China Technol Sci, 55, 3425, 10.1007/s11431-012-4990-7

Li, 1992, Conditions for pseudo strain-hardening in fiber reinforced brittle matrix composites, Appl Mech Rev, 45, 390, 10.1115/1.3119767

Li, 1993, From micromechanics to structural engineering—the design of cementitious composites for civil engineering applications, J Struct Mech Earthquake Eng JSCE, 10, 37

Lin, 1999, On interface property characterization and performance of fiber reinforced cementitious composites, Concr Sci Eng RILEM, 1, 173

Marshall, 1988, A J-integral method for calculating steady-state matrix cracking stresses in composites, Mech Mater, 7, 127, 10.1016/0167-6636(88)90011-7

Kanda, 1998, Multiple cracking sequence and saturation in fiber reinforced cementitious composite, Concr Res Technol JCI, 9, 19, 10.3151/crt1990.9.2_19

Cao L. Experimental study on mechanical property of PVA-fiber reinforced cementitious composite [Master’s thesis]. Zhengzhou, China: Henan Polytechnic University; 2010 [in Chinese].

Li, 2002, Interface tailoring for strain-hardening polyvinyl alcohol-engineered cementitious composite (PVA-ECC), ACI Mater J, 99, 452

Yang, 2007, Use of high volumes of fly ash to improve ECC mechanical properties and material greenness, ACI Mater J, 104, 620

Cai, 2010, Study on corresponding relationships between flexural load-deformation hardening curves and tensile stress–strain hardening curves of UHTCC, Eng Mech, 27, 8

Qian, 2007, Simplified inverse method for determining the tensile strain capacity of strain hardening cementitious composites, J Adv Concr Technol, 5, 235, 10.3151/jact.5.235