At present, the exploitation of river sand is forbidden because of the harm to the environment. The production processes of microsilica sand are complicated and the cost is high. The excellent availability of desert sand provides a practical solution for using it as the aggregate, this research used high-volume fly ash, steel fiber, PVA fiber and some or all of the Mu Us desert sand to replace the river sand to prepare the Desert-Sand-based steel-PVA hybrid Fiber Reinforced ECC (H-DSECC) that meets the performance requirements. Through the single factor test, the steel fiber replacement rate and the desert sand replacement rate were taken as the main factors, and the mechanical properties of H-DSECC were initially explored. The results show that the high steel fiber replacement rate or high desert sand replacement rate is not conducive to the realization of strain-hardening. An H-DSECC mixture containing 40% desert sand with W/B ratio of 0.29 has delivered the best properties with the tensile strain capacity of 1.467%, the tensile strength is 7.5 MPa and the cylinder compressive strength is 41.03 MPa at 28 days. Based on the measured stress-strain curves, the uniaxial tension/compression stress-strain curve equations are proposed.

1 Gao DY, "Trilinear tensile stress–strain constitutive model for high ductility cementitious composite with totally recycle fine aggregate" 319 : 2022

2 Al-Harthy AS, "The properties of concrete made with fine dune sand" 21 (21): 1803-1808, 2007

3 Kanda T, "Tensile stress-strain modeling of pseudostrain hardening cementitious composites" 12 (12): 147-156, 2000

4 Li VC, "Tensile strain-hardening behavior of polyvinyl alcohol engineered cementitious composite(PVA-ECC)" 98 (98): 483-492, 2001

5 Ma H, "Tailoring engineered cementitious composites with local ingredients" 101 : 584-595, 2015

6 Victor C. Li, "Tailoring ECC for Special Attributes: A Review" 한국콘크리트학회 6 (6): 135-144, 2012

7 Nan Zhao ; Sheliang Wang ; Xiaoyi Quan ; Chunxuan Wang, "Study on the Coupled Effects of Bentonite and High-Volume Fly Ash on Mechanical Properties and Microstructure of Engineered Cementitious Composites (ECC)" 대한토목학회 23 (23): 2628-2635, 2019

8 An X, "Study on freeze-thaw resistance with NaCl of desert sand engineering cement composites" 2020

9 Said SH, "Structural behavior of RC engineered cementitious composite(ECC)exterior beam–column joints under reversed cyclic loading" 107 : 226-234, 2016

10 Hosseini F, "Structural assessment of bridge columns with engineered cementitious composites and Cu-Al-Mn superelastic alloys" 203 : 331-342, 2019

11 Sun LZ, "Stress strain behavior of hybrid steel-PVA fiber reinforced cementitious composites under uniaxial compression" 188 : 349-360, 2018

12 Han TS, "Simulation of highly ductile fiber-reinforced cement-based composite components under cyclic loading" 100 (100): 749-757, 2003

13 Zhang R, "Shear behavior of polypropylene fiber reinforced ECC beams with varying shear reinforcement ratios" 2 (2): 39-, 2014

14 Xu L, "Seismic performance of precast RC and RC/ECC composite columns with grouted sleeve connections" 188 : 104-110, 2019

15 Hosseini F, "Seismic behavior of 3-D ECC beam-column connections subjected to bidirectional bending and torsion" 172 : 751-763, 2018

16 Che JL, "Research on basic mechanical properties of different modulus alkaline excited ECC" 2022

17 Dong An ; Zheng Chen ; Guangyao Cui, "Research on Seismic Performance of Fiber Concrete Lining Structure of Urban Shallow-Buried Rectangular Tunnel in Strong Earthquake Area" 대한토목학회 25 (25): 2748-2757, 2021

18 JSCE, "Recommendations for design and construction of high performance fiber reinforced cement composites with multiple fine cracks"

19 Wille K, "Properties of strain hardening ultra high performance fiber reinforced concrete(UHP-FRC)under direct tensile loading" 48 : 53-66, 2014

20 Khan MI, "Optimized fresh and hardened properties of strain hardening cementitious composites : Effect of mineraladmixtures, cementitious composition, size, and type of aggregates" 29 (29): 04017178-, 2017

21 Che JL, "Mechanical properties of desert sand-based fiber reinforced concrete(DS-FRC)" 9 (9): 1857-, 2019

22 Meng D, "Mechanical behaviour of a polyvinyl alcohol fibre reinforced engineered cementitious composite(PVA-ECC)using local ingredients" 141 : 259-270, 2017

23 Li JX, "Macroscopic and microstructural properties of engineered cementitious composites incorporating recycled concrete fines" 78 : 33-42, 2017

24 Li VC, "Interface tailoring for strain-hardening polyvinyl alcohol-engineered cementitious composite(PVA-ECC)" 99 (99): 463-472, 2002

25 Ping Xu ; Jinyi Ma ; Yahong Ding ; Minxia Zhang, "Influences of Steel Fiber Content on Size Effect of the Fracture Energy of High-Strength Concrete" 대한토목학회 25 (25): 948-959, 2021

26 Su RKL, "Incremental displacement collocation method for the evaluation of tension softening curve of mortar" 88 : 49-62, 2012

27 Congro M, "Fracture modeling of fiber reinforced concrete in a multiscale approach" 174 : 106958-, 2019

28 Constantin E. Chalioris ; Thomas A. Panagiotopoulos, "Flexural analysis of steel fibre-reinforced concrete members" 사단법인 한국계산역학회 22 (22): 11-25, 2018

29 Olesen JF, "Fictitious crack propagation in fiber-reinforced concretebeams" 127 (127): 272-280, 2001

30 Hou MJ, "Experimental study on ultra-high ductility cementitious composites applied to link slabs for jointless bridge decks" 204 : 167-177, 2018

31 Gou SK, "Experimental study on seismic performance of precast LSECC/RC composite joints with U-shaped LSECC beam shells" 189 : 618-634, 2019

32 Chi Y, "Experimental study on hybrid fiber–reinforced concrete subjected to uniaxial compression" 26 (26): 211-218, 2014

33 Che JL, "Experimental research on mechanical properties of desert sand steel-PVA fiber engineered cementitious composites" 24 (24): 584-592, 2017

34 Hu B, "Experimental and theoretical investigation on the hybrid CFRP-ECC flexural strengthening of RC beams with corroded longitudinal reinforcement" 200 : 109717-109717, 2019

35 Luo FJ, "Effect of very fine particles on workability and strength of concrete made with dune sand" 47 : 131-137, 2013

36 Kytinou VK, "Effect of steel fibers on the hysteretic performance of concrete beams with steel reinforcement — tests and analysis" 13 (13): 2923-, 2020

37 Zhang MH, "Dynamic mechanical behaviors of desert sand concrete(DSC)after different temperatures" 9 (9): 2019

38 Yu KQ, "Direct tensile properties of engineered cementitious composites : A review" 165 : 346-362, 2018

39 Stephen SJ, "Determination of the tensile constitutive relations of fiber reinforced concrete using inverse analysis" 195 : 405-414, 2019

40 "DB64/T 1767-2021 (2021) Technical specification for application of high performance concrete"

41 Zhang R, "Cyclic response of RC composite bridge columns with precastPP-ECC jackets in the region of plastic hinges" 221 : 110844-110844, 2019

42 Petersson PE, "Crack growth and development of fracture zones in plain concrete and similar materials" TVBM 1981

43 Guettala S, "Compressive strength and hydration with age of cement pastes containing dune sand powder" 25 (25): 1263-1269, 2010

44 Ahmed SF, "Analytical model for tensilestrain Hardening and multiple cracking behavior of hybrid fiber-engineered cementitious composites" 19 (19): 527-539, 2007

45 Hillerborg A, "Analysis of crack formationand crack growth in concrete by means of fracture mechanics and finite element" 6 (6): 773-781, 1976

46 Guan XC, "An economicalultra-high ductile engineered cementitious composite with large amount of coarse river sand" 201 : 461-472, 2019

47 "ASTM C39 (2001) Standard test method for compressive strength of cylindrical concrete specimens"

48 Yu K, "A strain-hardening cementitious composites with the tensile capacity up to 8%" 137 : 410-419, 2017

49 Zhang H, "3D meso-scale investigation of ultra high performance fibre reinforced concrete(UHPFRC)using cohesive crack model and Weibull random field" 327 : 127013-, 2022