BROCHURE
Jia-Bao Yan  is a Associate Professor ,Tianjin University,China

Jia-Bao Yan

Associate Professor

Organizing Committee Member

China

Tianjin University

PUBLICATIONS

Year 2020 (10)

[1] Yan JB, Guan HN, Yan YY, Wang T*. Numerical and parametric studies on SCS sandwich walls subjected to in-plane shear. Journal of Constructional Steel Research 2020; ???: 106011(in press).
[2] Lin XC, Chen YA, Yan JB*, Hu YY. Seismic behavior of welded beam-to-column joints of high strength steel moment frame with replaceable damage-control fuses. ASCE, Journal of Structural Engineering 2020; in press.
[3] Khan K, Yan JB*. Finite Element Analysis on Seismic Behaviour of Novel Joint in Prefabricated Modular Steel Building. International Journal of Steel Structures 2020; in press.
[4] Yan JB, Wang T*, Dong X. Compressive behaviours of circular concrete-filled steel tubes exposed to low-temperature environment. Construction and Building Materials 2020; 245C: 118460.
[5] Yan JB, Chen YA, Lin XC. Finite element analysis and parametric studies on hysteretic behaviours of high strength steel T-joints with damage-control fuses. Thin-Walled Structures 2020; 148: 106574.
[6] Yan JB, Hu HT, Wang T*. Shear behaviour of novel enhanced C-channel connectors in steel-concretesteel sandwich composite structures.  Journal of Constructional Steel Research 2020; 166: 105903.
[7] Yan JB, Xie J*, Ding K. Stress relaxation behavior of steel strand in precast, prestressed concrete structures at low temperatures. PCI Journal 2020; 65(1): 41-56.
[8] Yan JB, Yan YY, Wang T*. Seismic behaviours of novel SCS sandwich shear walls with CFST boundary columns. Journal of Constructional Steel Research 2020; 164: 105760.
[9] Yan JB, Dong X, Wang T*. Axial compressive behaviours of square CFST stub columns at low temperatures. Journal of Constructional Steel Research 2020; 163: 105812.
[10] Zhu JS, Wang YG, Yan JB*. Shear behaviour of steel-UHPC composite beams in waffle bridge deck. Composite Structures 2020; 234: 111678. 

Year 2019 (15)

[11] Yan JB, Chen AZ, Wang T*. Developments of double skin composite walls using novel enhanced Cchannel connectors. Steel and Composite Structures 2019; 33(6): 877-889. DOI: 10.12989/scs.2019.33.6.877
[12] Xie J, Cui N, Yan JB*. Experimental study on prestress losses of post-tensioned concrete members at ultra-low temperatures. Structural Concrete 2019; 20(6): 1828-1841. [13] Wang JY, Gao XL, Yan JB*. Behaviours of steel-fibre-reinforced ULCC slabs subject to concentrated loading. Structural Engineering and Mechanics, An International Journal, 2019; 71(4): 407-416.
[14] Yan JB, Dong X, Zhu J. Behaviours of stub steel tubular columns subjected to axial compression at low temperatures. Construction and Building Materials 2019; 228: 116788. [15] Yan JB, Yan YY, Wang T*, Li ZX. Seismic behaviours of SCS sandwich shear walls using J-hook connectors. Thin-Walled Structures 2019; 144: 106308.
[16] Yan JB, Dong X, Zhu J. Compressive behaviours of CFST stub columns at low temperatures relevant to the Arctic environment. Construction and Building Materials 2019; 223: 503-519. JA1HW
[17] Yan JB, Wang Z, Luo YB, Wang T*. Compressive behaviours of novel SCS sandwich composite walls with normal weight concrete. Thin-Walled Structures 2019; 141C: 119-132.  IL0DH
[18] Yan JB, Wang Z, Xie J. Compressive behaviours of double skin composite walls at low temperatures relevant to the Arctic environment. Thin-Walled Structures 2019; 140C: 294-303.  ID0FE
[19] Yan JB, Xie WJ, Zhang LX, Lin XC.  Bond behaviour of concrete-filled steel tubes at the Arctic low temperatures. Construction and Building Materials 2019; 210C: 118-131. HW6TP
[20] Yan JB, Wang Z, Wang X*. Behaviour of steel-concrete-steel sandwich plates under different ice-contact pressure. Advanced Steel Construction 2019; 15(1):116-122. HP5ME [21] Yan JB, Wang Z, Wang T*. Compressive behaviours of novel steel-concrete-steel sandwich walls at low temperatures. Construction and Building Materials 2019; 207: 108-121. HY6QA
[22] Ding Y, Dai XM, Yan JB*, Zong L, Deng EF. Developments and behaviours of slip-released novel connectors in steel-concrete composite structures. Advanced Steel Construction 2019; 15(1): 30-36. HP5ME  
[23] Zhang XZ, Niu SX, Yan JB*, Zhang SH. Seismic behaviour of pre-stressed high strength concrete piles under combined axial compression and cyclic horizontal loads. Advances in Structural Engineering 2019; 22(5):1089-1105.  HR4JX
[24] Li ZX, Li CH, Yan JB*. Seismic behaviour of hybrid-fibre reinforced concrete shear keys in immersed tunnels. Tunnelling and Underground Space Technology 2019 (June); 88C: 16-28. HU3SB
[25] Xie J, Fu QH, Yan JB*. Compressive behaviour of stub concrete column strengthened with ultra-high performance concrete jacket. Construction and Building Materials 2019; 204: 643-658.
 
Year 2018 (11) 
 
[26] Yan JB, Li ZX, Wang Tao*. Seismic behaviour of double skin composite shear walls with overlapped headed studs. Construction and Building Materials 2018; 191C: 590-607. 10.1016/j.conbuildmat.2018.10.042. HB5MO

[27] Xie J, Zhao X, Yan JB*. Mechanical properties of high strength steel strand at low temperatures: Tests and analysis. Construction and Building Materials 2018; 189C: 1076-1092. (JCR 1 区,IF:, SCI 检索号: GZ1MW)
[28] Xie J, Zhao X, Yan JB*. Experimental and numerical studies on bonded prestressed concrete beams at low temperatures. Construction and Building Materials 2018; 188: 101-118. (JCR 1 区,IF:, SCI 检索 号:  GX2WA).
[29] Xie J, Zhu GR, Yan JB*. Mechanical properties of headed studs at low temperatures in the Arctic infrastructures. Journal of Constructional Steel Research 2018; 149: 130-140. (JCR, IF: 1.702, SCI 检索 号:xxxxxx).
[30] Yan JB, Xie J*. Shear behaviour of headed stud connectors at low temperatures relevant to the Arctic environment. ASCE, Journal of Structural Engineering 2018; 144(9): 04018139. (JCR 2 区, SCI 检索号: GN9RN).
[31] Wang JY, Gao X, Yan JB*. Developments and mechanical behaviors of steel fiber reinforced ultralightweight cement composite with different densities. Construction and Building Materials 2018; 171:  643-653. (JCR 1 区,IF: , SCI 检索号: xxxxxx).
[32] Yan JB, Wang XT, Tao Wang*. Compressive behaviour of normal weight concrete confined by the steel faceplates in SCS sandwich wall. Construction and Building Materials, 2018; 171:437-454. (JCR 1 区, IF:, SCI 检索号: GG2FS ).
[33] Yan JB, Wang Z, Wang T*, Wang XT. Shear and tensile behaviors of headed stud connectors in double skin composite shear wall. Steel and Composite Structures 2018; 26(6): 759-769. (JCR 1 区,IF: 3.198, SCI 检索号: GB8NU).
[34] Xie J, Yan JB*. Experimental studies and analysis on compressive strength of normal weight concrete at low temperatures. Structural Concrete 2018, 19(4):  1235-1244. (中科院四区,IF:, SCI 检索号: ).
[35] Xie J, Yan JB*. Tests and analysis on thermal expansion behaviour of steel strand used in prestressed concrete structure under low temperatures. International Journal of Concrete Structures and Materials 2018; 12(1): 91-100. (JCR 2 区,IF: 1.414, SCI 检索号: FZ1BL ).
[36] Rong B, Liu S, Yan JB*, Zhang RY. Shear behaviour of panel zone in through-diaphragm connections to steel tubular columns. Thin-Walled Structures 2018; 122C: 286-299. (JCR 1 区,IF: , SCI 检索号: FR9RE). 
Year 2017 (8)
[37] Xie J, Kang EC, Yan JB*, Nie ZM. Tests on strengths of steel strand and strand-concrete (or cement slurry) bond stress under cryogenic temperatures. Structural Concrete 2017; 18: 872–882. (中科院四区,IF: , SCI 检索号: FT1CA).
[38] Deng EF, Yan JB*, Ding Y, Zong L, Li ZX, Dai XM. Analytical and numerical studies on steel columns with novel connections in modular construction. International Journal of Steel Structures 2017, 17(4): 1613– 1626. (中科院四区,IF:0.609, SCI 检索号:FQ2IH) [39] Yan JB, Xie J*. Experimental studies on mechanical properties of steel reinforcements under cryogenic temperatures. Construction and Building Materials 2017; 151: 661-672.  (JCR 1 区,IF: 2.296, SCI 检索 号: FE4KV)
[40] Yan JB, Xie J*. Behaviours of reinforced concrete beams under low temperatures. Construction and Building Materials 2017; 141: 410-425. (JCR 1 区,IF: 2.296, SCI 检索号: ET1MO).
[41] Yan JB, Zhang W*. Numerical analysis on steel-concrete-steel sandwich plates by damage plasticity model: From materials to structures. Construction and Building Materials 2017; 149:801-815. (JCR 1 区,IF: 2.296, SCI 检索号: FA6ET).
[42] Yan JB, Li ZX, Xie J. Numerical and parametric studies on steel-elastic concrete composite structures. Journal of Constructional Steel Research 2017; 133: 84–96. (JCR 1 区,IF: 1.702, SCI 检索号: ET1MI).
[43] Xie J, Chen X, Yan JB*, Nie ZM, Zhu LM. Ultimate strength behavior of prestressed concrete beams at cryogenic temperatures. Materials and Structures 2017; 50(1): 81. DOI: 10.1617/s11527-016-0956-8. (JCR 1 区,IF: 2.453, SCI 检索号: DY3VE). 
[44] Ding Y, Liu Z, Yan JB*, Zong L.  Experimental and numerical studies on residual stress in wide butt welds. Advances in Materials Science and Engineering 2017; Article ID 1384305, 1: 9, DOI: 10.1155/2017/1384305. (中科院四区,IF: 1.010, SCI 检索号: EK6DA). 
Year 2016 (12) 
[45] Yan JB*, Liew JYR. Design and behavior of steel–concrete–steel sandwich plates subject to concentrated loads. Composite Structures 2016; 150:139-152. (JCR 1 区,IF=3.853,检索号:DN8BE).
[46] Yan JB*, Liew JYR, Zhang MH, Li ZX. Punching shear resistance of steel-concrete-steel sandwich composite shell structure. Engineering Structures 2016; 117: 470-485. (JCR 1 区,IF=1.838;SCI 检索 号:DL7JS).
[47] Yan JB*, Qian X, Liew JYR, Zong L. Damage plasticity based numerical analysis on steel-concrete-steel sandwich shells used in the Arctic offshore structure. Engineering Structures 2016, 117: 542-559(JCR 1 区,IF=1.838, SCI 检索号:DL7JS).
[48] Yan JB, Zhang W*, Liew JYR, Li ZX. Numerical studies on shear resistance of headed stud connectors in different concretes under Arctic low temperature. Materials & Design 2016; 112: 184-196. (JCR 1 区, IF: 3.997, SCI 检索号: EB3QE).
[49] Yan JB*, Liu XM, Liew JYR, Qian X, Zhang MH. Steel-concrete-steel sandwich system in Arctic offshore structures: materials, experiments, and design. Materials & Design 2016; 91: 111-121. (JCR 1 区,IF: 3.997, SCI 检索号: CZ6UB).
[50] Yan JB, Wang JY*, Liew JYR, Qian X, Zhang W. Reinforced ultra-lightweight cement composite flat slabs: Experiments and analysis. Materials & Design 2016; 95: 148-158. (JCR 1 区,IF: 3.997, SCI 检索号: DF4CP ).
[51] Yan JB*, Xiong MX*, Liew JYR, Qian X. Numerical and parametric study of curved Steel-Concrete-Steel sandwich composite beams under concentrated loading. Materials and Structures 2016; 49(10): 39814001. (JCR 1 区,IF: 2.453, SCI 检索号: DR0HN).
[52] Yan JB*, Wang JY, Liew JYR, Qian X. Ultimate strength behaviour of steel–concrete–steel sandwich plate under concentrated loads. Ocean Engineering 2016; 118: 41-57. (JCR 1 区,IF: 1.488, SCI 检索号: DN1EB).
[53] Yan JB, Wang JY, Liew JYR*, Zhang MH. Applications of ultra-lightweight cement composite in flat slabs and double skin composite structures. Construction and Building Materials 2016;111: 774-796 (JCR 1 区,IF: 2.296, SCI 检索号: DJ2ZK).
[54] Yan JB*, Wang JY, Liew JYR, Qian X. Punching shear behavior of steel– concrete– steel sandwich composite plate under patch loads. Journal of Constructional Steel Research 2016; 121: 50~64 (JCR 1 区,IF: 1.702, SCI 检索号: DL3BG).
[55] Xiong MX, Yan JB*. Buckling length determination of concrete filled steel tubular column under axial compression in standard fire test. Materials and Structures 2016; 49(4): 1201-1212. (JCR 1 区,IF: 2.453, SCI 检索号:  DJ1LG).
[56] Zhang W, Yan JB*. Fatigue properties of shear-peeling debonding between CFRP plates and concrete. Magazine of Concrete Research 2016; 68(23): 1210-1224. (中科院四区,IF: 1.227, SCI 检索号: EB3FJ). 
Year 2015 (5) 
[57] Yan JB*, Liew JYR, Qian X, Wang JY. Ultimate strength behavior of curved Steel-Concrete-Steel sandwich composite beams. Journal of Constructional Steel Research 2015; 115: 316–328. (中科院三区,IF: 1.702, SCI 检索号: CV9OZ).
[58] Yan JB*, Liew JYR, Zhang MH, Sohel KMA. Experimental and analytical study on ultimate strength behaviour of steel-concrete-steel sandwich composite beam structures. Materials and Structures 2015; 48(5): 1523-1544 (中科院三区,IF: 2.453, SCI 检索号: CF6GM).
[59] Yan JB*. Finite element analysis on ultimate strength behaviour of steel-concrete-steel sandwich composite beam structures. Materials and Structures 2015; 48(6): 1645-1667. (中科院三区,IF: 2.453, SCI 检索号: CH5TB). 
 [60] Yan JB, Liew JYR*, Zhang MH. Ultimate strength behaviour of steel-concrete-steel sandwich composite structures, Part 2: Finite element analysis. Steel and Composite Structure 2015; 18(4): 1001-1021. (中 科院三区,IF: 1.796, SCI 检索号: CF2IG).
[61] Yan JB, Liew JYR*, Zhang MH. Shear-tension interaction strength of J-hook connectors in steel-concretesteel sandwich structure. Advanced Steel Construction 2015; 11(1): 72-93 (中科院四区,IF: 0.346, SCI 检索号: CB3GK). 
Year 2014 (4) 
[62] Yan JB, Liew JYR*, Zhang MH, Wang JY. Ultimate strength behaviour of steel-concrete-steel sandwich composite structures, Part 1: Experimental and analytical Study. Steel and Composite Structure, An International Journal 2014; 17(6): 907-927. (中科院三区,IF: 1.796, SCI 检索号:  AY4KP).
[63] Yan JB, Liew JYR*, Zhang MH. Tensile resistance of J-hook connectors in SCS sandwich composite structure. Journal of Constructional Steel Research 2014; 100: 146-162. (中科院三区,IF: 1.702, SCI 检 索号:  AK7OT).  
[64] Yan JB, Liew JYR*, Zhang MH. Mechanical properties of mild steel and high strength steel S690 under low temperature relevant to Arctic environment. Materials & Design 2014; 61: 150-159.  
[65] Yan JB, Liew JYR*, Sohel KMA, Zhang MH. Push out tests on J-hook shear connectors in steel-concretesteel sandwich structure. Materials and Structures, 2014; 47(10), 1693-1714.  
[66] Liew JYR*, Yan JB, Huang ZY.  Steel-Concrete-Steel Sandwich Composite Structures-Recent Innovations. Journal of Constructional Steel Research 2017; 30: 202-221.  
[67] Sohel KMA*, Liew JYR, Yan JB, Zhang MH and Chia KS. Behavior of steel-concrete-steel sandwich structures with lightweight cement composite and novel shear connectors. Composite Structures 2012; 94(12): 3500-3509.  
[68] Liu XM*, Zhang MH, Chia KS, Yan JB, Liew JYR. Mechanical properties of ultra-lightweight cement composite at low temperatures of 0 to -60C. Cement and Concrete Composites 2016; 73: 289-298.  
[69] Ding Y, Chen ZT, Zong L*, Yan JB. Theoretical strut model for severe seismic analysis of single-layer reticulated domes. Journal of Constructional Steel Research, Volume 128, January 2017, Pages 661-671.  
[70] Zong L, Shi G, Wang YQ, Yan JB, Yang Ding Y. Investigation on fatigue behaviour of load-carrying fillet welded joints based on mix-mode crack propagation analysis. Archives of Civil and Mechanical Engineering 2017; 17(3): 677-686.
[71] Li ZX, Zhong B, Shi YC, Yan JB. Numerical studies on influence of concrete strain softening behaviour on post-blast analysis of RC columns. International Journal of Concrete Materials and Structures 2017; 11(2): 403-413.  
 
Book chapters and EI indexed papers 
 
1. Jia-Bao Yan*; Ye, Yanqi; Zhang, Shuoying. Application of member endochronic model to reinforced concrete members in uniaxial bending condition. Jianzhu Jiegou Xuebao/Journal of Building Structures 2006;  27( n SUPPL.) : 848-851, Language: Chinese.
2. 谢剑,朱元吉,严加宝.预制外墙挂板-剪力墙结构抗震性能试验[J].天津大学学报(自然科学与工程 技术版),2017,50(08):806-812.
3. J.Y.Richard Liew, Jia-Bao Yan. Design of Steel-Concrete-Steel sandwich composite structure, Festschrift Peter Schaumann. Hannover: Leibniz Universität Hannover, Institute for Steel Construction , 2014, pp. 77-84.  
4. Wei Xiong,  Hingho Tsang, Shouping Shang, Haidong Wang,  Fangyuan Zhou,  Jiabao Yan. Jianzhu Jiegou Xuebao/Journal of Building Structures 2010; 31(n SUPPL. 2): p39-45, Language: Chinese.
5. Wei Xiong,Yaozhuang Li,Jiabao Yan. Numeral modeling and experimental verification on heat transfer of RC beams under elevated temperature. Journal of Central South University (Science and Tecnology, Vol.43,No.7,July 2012 (EI).

Conference papers

1. Yan JB. Development of the steel-concrete-steel sandwich composite structures; Kobe University, Kobe, Japan; 2017.
2. J.Y.Richard Liew, Jia-Bao Yan, Zhen-Yu Huang 。 Steel-Concrete-Steel sandwich composite structures -The current state of the art. 11th International Conference on Advances in Steel and Concrete Composite Structures Tsinghua University, Beijing, China, December 3-5, 2015.
3. Jia-Bao Yan*, J.Y.Richard Liew. NUMERICAL ANALYSIS OF STEEL-CONCRETE-STEEL SANDWICH COMPOSITE BEAMS AND SHELLS. 11th International Conference on Advances in Steel and Concrete Composite Structures Tsinghua University, Beijing, China, December 3-5, 2015.
4. Jia-bao Yan,  J.Y.Richard Liew, Min-Hong Zhang, Junyan Wang, Zhenyu Huang. Finite element analysis of steel-concrete-steel sandwich composite beams with shear connectors. The Twenty-Sixth KKHTCNN Symposium on Civil Engineering, November 18-20, 2013, Singapore.
5. Zhenyu Huang, J.Y.Richard Liew, Jia-bao Yan. Experimental Study of Curved Lightweight SteelConcrete-Steel Sandwich Structure Subjected to Lateral Loading. The Twenty-Sixth KKHTCNN Symposium on Civil Engineering, November 18-20, 2013, Singapore.
6. Jia-bao Yan, J.Y.Richard Liew, Min-hong Zhang, Zhenyu Huang. Finite element analysis on steelconcrete-steel sandwich composite beams with J-hook shear connectors. ICSCS 2013, 8-12 September 2013, Jeju, Korea.
7. Zhenyu Huang, J.Y.Richard Liew and Jia-bao Yan. Finite Element Analysis of Curved Lightweight Steel-Concrete-Steel Sandwich Panel Subjected to Lateral Loads. ICSCS 2013, 8-12 September 2013, Jeju, Korea.
8. Jia-bao Yan, J.Y.Richard Liew, Min-hong Zhang, Zhenyu Huang, and Junyan Wang. Ultimate Strength Behavior of Steel-Concrete-Steel Sandwich Composite Structures with Ultra-lightweight Cement Composite. The Pacific Structural Steel Conference (PSSC 2013), 8 – 11 October 2013, Singapore.
9. Zhenyu Huang, J.Y.Richard Liew, Jia-bao Yan. Finite Element Analysis of Curved Steel-ConcreteSteel Sandwich Beams. The Pacific Structural Steel Conference (PSSC 2013), 8 – 11 October 2013, Singapore.
10. Jia-bao Yan, J.Y.Richard Liew, Min-hong Zhang. Experimental and analytical study on ultimate strength behavior of steel-concrete-steel sandwich composite structures with different concrete mixtures and connectors. ICCS17, Portugal, Jun17~22, 2013, Porto, Portugal.
11. P.W. Marshall, K.M.A. Sohel, J.Y. Richard Liew, Jia-bao Yan, A. Palmer, Y.S. Choo. Development of SCS Sandwich Composite Shell for Arctic Caissons. Offshore Technology Conference, paper no. 23818, Houston, Texas, USA, 3-5 December 2012 (EI).  
12. K.M.A Sohel, J.Y.Richard Liew, Jia-bao Yan and M.H. Zhang. Development of Composite Sandwich Structures for Arctic Region. ICETECH12, International conference and exhibition on performance of ships and structures in ICE, Paper No. ICETECH12-117-RF, September, 2012, Banff, Alberta (EI).  
13. Jia-bao Yan, JYRichard Liew. Shear strength of J-hook shear connectors in steel-concrete-steel sandwich composite structures with ultra-lightweight. 10th International Conference on Advances in Steel Concrete Composite and Hybrid Structures, pp.791-799, 2 – 4July 2012, Singapore.
14. K.M.A. Sohel, J. Y. R. Liew, M. H. Zhang, Jia-bao Yan and K. S. Chia.  Investigation of longitudinal shear resistance of steel-ultra-lightweight cementitious composite slabs with profiled sheeting. 10th International Conference on Advances in Steel Concrete Composite and Hybrid Structures, pp.445-453, 2 – 4 July 2012, Singapore.
15. Jia-bao Yan, J.Y. Richard Liew, K.M.A. Sohel, Min-Hong Zhang, Choo Y.S., and Chia K.S. Strength of J-hook connectors subjected to combination of tensile and shear loads. The 2011 International Conference on Steel and Composite structures under ASEM, Seoul, Korea, paper no. 238.
16. KMA Sohel, JYR Liew, Jia-bao Yan, MH Zhang, and KS Chia. Behavior of steel-concrete-steel sandwich structures with lightweight cement composite and novel shear connectors. 16th International Conference on Composite structures, ed. Antonio J.M. Ferreia, Porto, Portugal, 28-30 June, 2011, paper no. 728.  
17. Jia-bao Yan, K.M.A. Sohel, J.Y. Richard Liew and Y.S. Choo. Novel shear connectors for composite sandwich structures. Proceedings of the Twenty-Third KKCNN Symposium on Civil Engineering, ed. L.J. Leu and C.T.Chen, Taipei, Taiwan, Nov. 13-15, 2010, paper no. 77.  
18. Jia-bao Yan, J.Y. Richard Liew and T.Y. Wang. Ultimate strength of curved sandwich structures. Proceedings of the Twenty-Second KKCNN Symposium on Civil Engineering, Chiangmai, Thailand,  Oct. 31-Nov2, 2009, paper no. 83. 

EDUCATION

  • Ph.D., National University of Singapore, 2012  
  • M.Eng., Xi’an Jiaotong University, China, 2007
  • B.Eng., Central South University, China, 2004 
 

RESEARCH INTEREST

  • Steel structure
  • Steel-concrete composite structure
  • Seismic resistance of high rise building
  • Arctic offshore structure
  • Fire resistance of steel-concrete composite structure
  • Reinforced concrete structure
  • Lightweight concrete 

HONORS AND AWARDS

  • Tianjin 1000 Talent Young Scholars (Funded by 0.5Million), 2016.
  • 2019, “SHEN ZHIKANG” outstanding teaching award  
  • 2019, Top 20 most popular supervisor of Tianjin University
  • 2018, Peiyang Fundation for Young Scholar, Tianjin University.