1 Yang, E. H., "Tailoring engineered cementitious composites for impact resistance" 42 (42): 1066-1071, 2012
2 Luo, X., "Study on the effect of basalt fiber on the energy absorption characteristics of porous material" 68 : 384-390, 2014
3 Li, V. C., "Steady state and multiple cracking of short random fiber composites" 188 (188): 246-2264, 1992
4 Song, S., "Research on mechanical properties of basalt fiber reinforced high ductility cement-based composites at room temperature and high temperature" Hebei University of Technology 2019
5 Yang, E. H., "Rate dependence in engineered cementitious composites" 83-92, 2005
6 Chen, Z., "Quasi-static and dynamic compressive mechanical properties of engineered cementitious composite incorporating ground granulated blast furnace slag" 44 : 500-508, 2013
7 Borhan, T. M., "Properties of glass concrete reinforced with short basalt fiber" 42 : 265-271, 2012
8 Zhang, J., "Performance of hybrid-fiber ECC blast/shelter panels subjected to drop weight impact" 19 (19): 855-863, 2007
9 Wang, D., "Mechanical properties of high performance concrete reinforced with basalt fiber and polypropylene fiber" 197 : 464-473, 2019
10 Su, H., "Mechanical properties of ceramic fiber-reinforced concrete under quasi-static and dynamic compression" 57 : 426-434, 2014
1 Yang, E. H., "Tailoring engineered cementitious composites for impact resistance" 42 (42): 1066-1071, 2012
2 Luo, X., "Study on the effect of basalt fiber on the energy absorption characteristics of porous material" 68 : 384-390, 2014
3 Li, V. C., "Steady state and multiple cracking of short random fiber composites" 188 (188): 246-2264, 1992
4 Song, S., "Research on mechanical properties of basalt fiber reinforced high ductility cement-based composites at room temperature and high temperature" Hebei University of Technology 2019
5 Yang, E. H., "Rate dependence in engineered cementitious composites" 83-92, 2005
6 Chen, Z., "Quasi-static and dynamic compressive mechanical properties of engineered cementitious composite incorporating ground granulated blast furnace slag" 44 : 500-508, 2013
7 Borhan, T. M., "Properties of glass concrete reinforced with short basalt fiber" 42 : 265-271, 2012
8 Zhang, J., "Performance of hybrid-fiber ECC blast/shelter panels subjected to drop weight impact" 19 (19): 855-863, 2007
9 Wang, D., "Mechanical properties of high performance concrete reinforced with basalt fiber and polypropylene fiber" 197 : 464-473, 2019
10 Su, H., "Mechanical properties of ceramic fiber-reinforced concrete under quasi-static and dynamic compression" 57 : 426-434, 2014
11 Kizilkanat, A. B., "Mechanical properties and fracture behavior of basalt and glass fiber reinforced concrete : an experimental study" 100 : 218-224, 2015
12 Yu, J., "Mechanical performance of ECC with high-volume fly ash after sub-elevated temperature" 99 : 82-89, 2015
13 Lopresto, V., "Mechanical characterization of basalt fiber reinforced plastic" 42 (42): 717-723, 2011
14 Mechtcherine, V., "Mechanical behaviour of strain hardening cement-based composites under impact loading" 33 (33): 1-11, 2011
15 Branston, J., "Mechanical behaviour of basalt fiber reinforced concrete" 124 : 878-886, 2016
16 "JC/T2461-2018. (2018). Standard test method for the mechanical properties of ductile fiber reinforced cementitious composites"
17 Li, Q., "Influence of steel fiber on dynamic compressive behavior of hybrid fiber ultra high toughness cementitious composites at different strain rates" 125 : 490-500, 2016
18 Fu, Q., "Impact response of concrete reinforced with hybrid basalt-polypropylene fibers" 326 : 411-424, 2018
19 Soe, K. T., "Impact resistance of hybrid-fiber engineered cementitious composite panels" 104 : 320-330, 2013
20 Ali, M. A. E. M., "Hybrid-fiber reinforced engineered cementitious composite under tensile and impact loading" 117 : 139-149, 2017
21 "GB1596-88. (1988). Fly ash used in cement and concrete"
22 Maalej, M., "Flexural/tensile strength ratio in engineered cementitious composites" 6 (6): 513-528, 1994
23 CEB-FIP Model Code, "FIB Model Code for Concrete Structures, ComitéEuro-international du Béton–Federation Internationale de la Précontrainte" Ernst & Sohn 2010
24 Jiang, C. H., "Experimental study on the mechanical properties and microstructure of chopped basalt fiber reinforced concrete" 58 : 187-193, 2014
25 Patel, P. A., "Evaluation of engineering properties for polypropylene fibre reinforced concrete" 3 (3): 42-45, 2012
26 Wang, S., "Effect of high strain rate on compressive behavior of strain-hardening cement composite in comparison to that of ordinary fiber-reinforced concrete" 136 : 31-43, 2017
27 Bhat, P. S., "Effect of elevated temperature on strainhardening engineered cementitious composites" 69 : 370-380, 2014
28 Hao, H., "Dynamic compressive behaviour of spiral steel fibre reinforced concrete in split Hopkinson pressure bar tests" 48 : 521-522, 2013
29 Chen, D., "Dynamic compressive and splitting tensile response of unsaturated polyester polymer concrete material at different curing ages" 177 : 477-498, 2018
30 Ravichandran, G., "Critical-appraisal of limiting strain rates for compression testing of ceramics in a Split Hopkinson pressure bar" 77 (77): 263-267, 1994
31 Li, V. C., "Concrete construction engineering handbook" CRC Press 24-, 2007
32 Lee, J. J., "Chemical stability of basalt fiber in alkaline solution" 15 (15): 2329-2334, 2014
33 Sim, J. S., "Characteristics of basalt fiber as a strengthening material for concrete structures" 36 (36): 504-512, 2005
34 Maalej, M., "Behaviour of hybrid-fiber engineered cementitious composites subjected to dynamic tensile loading and projectile impact" 17 (17): 143-152, 2005
35 Ralegaonkar, R., "Application of chopped basalt fibers in reinforced mortar : a review" 164 : 589-602, 2018