Research Fields:
Preparation technology and mechanical properties of new ultra-high performance cement-based structural materials, Applied Basic Theory of High strain-hardening Ultra high performance concrete (UHPC), Steel- UHPC composite structures
Current Courses:
Projects:
1) Top Scholars in Basic Research in Institute for Advanced Study of Tongji University
2) National Nature Science Foundation of China [51609172]
3) Shanghai Pujiang Program [16PJ1409900]
4) Shanghai Municipal Science and Technology Project [17DZ1204200]
5) Fundamental Research Funds for the Central Universities [0500219248]
6) Zhejiang Communication Science and Technology Project, [2019-GXKY-01]
Publications:
[1] Wang JY, Gao XL, Yan JB*.Behaviours of steel-fibre-reinforced ULCC slabs subject to concentrated loading [J]. Structural Engineering and Mechanics, 2019, 71(4). (JCR Q1)
[2] Wang JY*, Bian C, Xiao RC, Ma B. Restrained Shrinkage Mechanism of Ultra High Performance Concrete [J]. KSCE Journal of Civil Engineering, 2019, 23(10). (JCR Q3)
[3] Bian C, Wang JY*.Mechanical and damage mechanisms of reinforced ultra high performance concrete under tensile loading [J]. Construction & Building Materials, 2019, 226: 259-279. (JCR Q1)
[4] Wang JY, Chen ZZ, Wu K*.Properties of calcium sulfoaluminate cement made ultra-high performance concrete: Tensile performance, acoustic emission monitoring of damage evolution and microstructure [J]. Construction & Building Materials, 2019, 208: 767-779. (JCR Q1)
[5] Guo JY, Wang JY*. Effects of self-healing on tensile behavior and air permeability of high strain hardening UHPC [J]. Construction & Building Materials, 2019, 204: 342-356. (JCR Q1)
[6] Wang JY, Gao XL, Yan JB*. Developments and mechanical behaviors of steel fiber reinforced ultra-lightweight cement composite with different densities[J]. Construction & Building Materials, 2018, 171(1). (JCR Q1)
[7] Wang JY*, Guo JY. Damage investigation of ultra high performance concrete under direct tensile test using acoustic emission techniques [J]. Cement & Concrete Composites, 2018, 88:17-28. (JCR Q1)
[8] Wang JY, Guo JY, Jia LJ*, Chen SM, Dong Y. Push-out tests of demountable headed stud shear connectors in steel-UHPC composite structures [J]. Composite Structures, 2017,170:69-79. (JCR Q1)
[9] Yan JB, Wang JY*, Liew JYR*, Xudong Qian. Applications of ultra-lightweight cement composite in flat slabs and double skin composite structures. Construction and Building Materials 111, 2016:774–793. (JCR Q1)
[10] Yan JB, Wang JY*, Liew JYR, Qian XD, Zhang W. Reinforced ultra-lightweight cement composite flat slabs: Experiments and analysis. Materials and Design 95 (2016) :148-158. (JCR Q1)
[11] Yan JB*, Wang JY*, Liew JYR, Qian XD, Li ZX. Punching shear behavior of steel-concrete-steel sandwich composite plate under patch loads. Journal of Constructional Steel Research 121(2016): 50-64. (JCR Q2)
[12] Huang ZY, Wang JY*, Liew JYR, Marshall PW. Lightweight steel-concrete-steel sandwich composite shell subject to punching shear. Ocean Engineering 102(2015):146-161. (JCR Q1)
[13] Wang JY*, Yang Y, Zhang MH and Liew JYR. Method to Determine Mixture Proportions of Workable Ultra Lightweight Cement Composites to Achieve Target Unit Weights. Cement and Concrete Composites, 53 (2014): 178-186. (JCR Q1)
[14] Wang JY*, Chia KS, Liew JYR and Zhang MH. Flexural Performance of Fiber-Reinforced Ultra Lightweight Cement Composites with Low Fiber Content. Cement and Concrete Composites, 43 (2013): 39-47. (JCR Q1)
[15] Wang JY*, Yang QB. Investigation on Compressive Behaviors of Thermoplastic Pipe Confined Concrete. Construction and Building Materials, 35 (2012): 578-585. (JCR Q1)
[16] Wang JY*, Zhang MH, Li W, Chia KS and Liew JYR. Stability of Cenospheres in Lightweight Cement Composites in Terms of Alkali-Silica Reaction. Cement and Concrete Research, 42 (2012): 721-727. (JCR Q1)
[17] Wang JY*, Banthia N and Zhang MH. Effect of Shrinkage Reducing Admixture on Flexural Behaviors of Fiber Reinforced Cementitious Composites. Cement and Concrete Composites, 34 (2012): 443-450. (JCR Q1)
[18] Wang JY* and Yang QB. Experimental Study on Mechanical Properties of Concrete Confined with Plastic Pipe. ACI Materials Journal, 2(2010): 132-137. (JCR Q3)
[19] Wang JY, Yan ZH, Geng LP. The mechanical property and microstructure of ultra-high performance lightweight concrete [J].Journal of Harbin institute of technology, 2019, 51(6):18-24. (EI)
[20] Wang JY, Li G, Guo JY, Liu C, Liu GP. Characterization of flexural performance of ultra-high performance concrete without thermal curing [J]. Journal of Tongji University (natural science), 2017, 45(9). (EI)
[21] Wang JY, Guo JY, Xiao RC, Ma B, Liu GP. Study on crack control mechanism of strain-hardening ultra-high performance concrete [J]. China civil engineering journal, 2017, 50(11). (EI)
[22] Wang JY, Geng LP, Guo JY, Liu C, Liu GP. Experimental study on crack width control ability of ultra-high performance concrete [J]. Journal of Harbin institute of technology, 2017, 49(12). (EI)
[23] Wang JY, Bian C, Xiao RC, Ma B, Liu GP. Restrained shrinkage behavior of Ultra high performance concrete without thermal curing [J]. Materials Reports, 2017, 31(23). (EI)
[24] Wang JY, Yang QB, Xiao HR. Research on Gas Permeability of Pipe-concrete Interface in Plastic-pipe Confined Concrete [J]. Journal of Tongji University (natural science), 2010, 38(07):1058-1061+1102. (EI)
[25] Wang JY, Yang QB. Experimental Study on Ductility and Toughness of HDPE-Pipe Concrete [J]. Journal of building materials, 2009, 12(04):394-397. (EI)
[26] Wang JY, Yang QB. Experimental Research on Mechanical Properties of PVC-pipe Concrete [J]. Journal of Tongji University (natural science), 2009,37(07):929-933. (EI)
[27] Wang JY, Yang QB. Study of Mechanical Behavior of Plastic Tube Filled with Concrete [J]. Journal of building materials,2007(02):161-166. (EI)