Zhang Zhe
School
School of Chemical Engineering and Technology
Professional Title
Professor
Contact Information
zhe.zhang@tju.edu.cn
50-C115, Tianjin University, Haihe Education Park, Tianjin, China
Education Background
- Doctor of Engineering| Ritsumeikan University| Mechanical Engineering| 2014
- Master of Engineering| Ritsumeikan University| Mechanical Engineering| 2009
- Master of Engineering| Tianjin University| Chemical Process Equipment| 2007
- Bachelor of Engineering| Tianjin University| Process Equipment and control engineering | 2005
Research Interests
- Microstructure characterazation and mechanical properties of heterogenous nanograined materials
- Non-destructive testing method based on luminance
- Cyclic deformation behavior of structure component subjected to multiaxial load
Positions & Employments
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2014.9-Now
School of Chemical Engineering and Technology | Tianjin University | Professor -
2009.10-2014.9
Reseach and Devolopment Center | Dainippon Screen MFG | Engineer
Academic Achievements
- Papers
- [1] Z. Qiu, W. Zhao, M. Cao, Y. Wang, J.W.Y. Lam, Z. Zhang*, X. Chen, B.Z. Tang*, Dynamic visualization of stress/strain distribution and fatigue crack propagation by an organic mechanoresponsive AIE luminogen, Advanced Materials 30 (2018) 1803924. (Frontispiece)
- [2] Z. Zhang*, X. Zhai, G. Chen, X. Chen, K. Ameyama. Enhanced synergy of strength-ductility and low-cycle fatigue resistance of high-entropy alloy through harmonic structure design. Scripta Materialia 213 (2022) 114591.
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- [3] Z. Zhang, H. Lin, Q. Lin, G. Chen, Xu Chen*. Mechanoresponsive luminogen (MRL)-based real-time and visible detection method for biaxial fatigue crack propagation. International Journal of Fatigue 164 (2022) 107161.
- [4] J. Wang, Z. Zhang*, H. Dai, H. Fujiwara, X. Chen, K. Ameyama. Enhanced corrosion resistance of CoCrFeMnNi high entropy alloy using heterogeneous structure design. Corrosion Science 209 (2022) 110761.
- [5] L. Shi, Z. Zhang*, X. Chen. Fatigue crack growth behavior in CoCrFeMnNi high entropy alloy with harmonic structure topology. International Journal of Fatigue 172 (2023) 107656.
- [6] Y. Liu, J. Li, Y. Kuang, Z. Liu, Z. Zhang*, X, Chen. Effect of carbon notubes modification on bending fatigue properties of carbon fiber reinforced polyimide composites. International Journal of Fatigue 175 (2023) 107814
- [7] X. Wei, Z. Zhang*, L. Shi, J. Kang, X. Chen. Organic mechanochromic luminescence-based visualization of fatigue damage and life prediction of aluminum to steel resistance spot welds. Fatigue Fract Eng Mater Struct. 2023;46:3530–3542
- [8] Z. Zhang*, X. Wei, L. Zhang, B. Li, Visualization and depth estimation of inner crack in high-pressure equipment based on organic mechanochromic luminescent materials. Adv. Mater. Interfaces 2023, 10, 2300330
- [9] Z. Zhang*, H. Lin, X. Wei, G. Chen, X. Chen. Real‑time and visible monitoring of structural damage using mechanoresponsive luminogen: recent progress and perspectives. Welding in the World 66 (2022) 1825-1845.
- [10] L. Zhang, Z. Zhang*, H. Lin, G. Chen, X. Chen. Real-time and visible monitoring of stress distribution using organic mechanoresponsive luminogen. Science China-Technological Science 2021, 64: 2586–2594.
- [11] L. Zhang, Z. Wang, L. Wang, Z. Zhang*, X. Chen, L. Meng. Machine learning-based real-time visible fatigue crack growth detection. Digital Communications and Networks 7 (2021) 551–558.
- [12] Z. Zhang,* M. Cao, L. Zhang, Z. Qiu,* W. Zhao, G. Chen, X. Chen, B.Z. Tang*, Dynamic visible monitoring of heterogeneous local strain response through an organic mechanoresponsive AIE luminogen. ACS Appl. Mater. Interfaces 2020, 12, 22129−22136.
- [13] B. Li, Y. Zheng, S. Shi, Z.Zhang *, Xu Chen*, Cyclic deformation and cracking behavior of 316LN stainless steel under thermomechanical and isothermal fatigue loadings, Materials Science & Engineering A 773 (2020) 138866.
- [14] B. Li , Y. Zheng , S. Shi , Z. Zhang *, X. Chen, Cyclic deformation behavior and failure mechanism of S32205 duplex stainless steel under torsional fatigue loadings, Materials Science & Engineering A 786 (2020) 139443.
- [15] G. Zhou, H. Ma, Z. Zhang*, J. Sun, X. Wang, P. Zeng, R. Zheng, X. Chen, K. Ameyama. Fatigue crack growth behavior in a harmonic structure designed austenitic stainless steel, Materials Science & Engineering A 758 (2019) 121-129.
- [16] R. Zheng*, M. Liu, Z. Zhang*, K. Ameyama, C. Ma, Towards strength-ductility synergy througth hierarchical microstructure design in an austenitic stainless steel, Scripta Materiallia 169 (2019) 76-81.
- [17] X. Chen, B. Ren, D. Yu, B. Xu, Z. Zhang*, G. Chen, Uniaxial low cycle fatigue behavior for pre-corroded 16MND5 bainitic steel in simulated pressurized water reactor environment, Journal of Nuclear Materials 504 (2018) 267-276.
- [18] J. Hu, H. Gao*, Y. Meng, Z. Zhang*, L.L. Gao, Effects of free-end torsion on the microstructure evolution and fatigue properties in an extruded AZ31 rod, Materials Science and Engineering A 726 (2018) 215-222.
- [19] H. Gao, J. Wang, F. Li, L.L. Gao*, Z. Zhang*, Uniaxial and biaxial ratcheting behavior of ultra-high molecular weight polyethylene, Materials Science and Engineering C 89 (2018) 295-306.
- [20] Z. Zhang*, J. Sun, Y. Lai, Y.P. Wang*, X. Liu, S. Shi, X. Chen, Effects of thermal aging on uniaxial ratcheting behavior of vulcanised natural rubber, Polymer Testing 70 (2018) 102-110.
- [21] S. Shi, Z. Zhang*, X. Wang, G. Zhou, G. Xie, X. Chen, K. Ameyama, Microstructure evolution and enhanced mechanical properties in SUS316LN steel produced by high presssure torsion at room temperature, Materials Science and Engineering A 711 (2018) 476-483.
- [22] Z. Zhang*, H. Ma, R. Zheng*, Q. Hu, M. Nakatani, M. Ota, G. Chen, X. Chen, C. Ma, K. Ameyama, Fatigue behavior of a harmonic structure designed austenitic stainless steel under uniaxial stress loading. Materials Science and Engineering A 707 (2017) 287–294.
- [23] R. Zheng, Z. Zhang*, M. Nakatani, M.Ota. X. Chen, C.L. Ma, K. Ameyama, Enhanced ductility in harmonic structure designed SUS316L produced by high energy ball milling and hot isostatic sintering, Materials science and engineering A 674(2016)212-220.
- [24] G. Chen, X. Zhang, D.K. Xu, D.H. Li, X. Chen, Z. Zhang*, Multiaxial ratcheting behavior of zirconium alloy tubes under combined cyclic axial load and internal pressure, Journal of Nuclear Materials 489(2017)99-108.
- [25] Y.P. Wang, Y.Z. Liu, Z. Zhang*, C. Wang, S. Shi and Xu Chen, Mechanical properties of cerium oxide-modified vulcanised natural rubber at elevated temperature, Plastics Rubber and composites, 46 (2017) 306-313
- [26] S. K. Vajpai*, M. Ota, Z. Zhang, K. Ameyama, Three-dimensionally gradient harmonic structure design: an integrated approach for high performance structural materials, Materials Research Letters 4 (2016) 191-197.
- [27] Z. Zhang, D. Orlov, S.K. Vajpai, B. Tong, K. Ameyama, Importance of Bimodal Structure Topology in the Control of Mechanical Properties of a Stainless Steel, Advanced Engineering Materials 17(2015)791-795.
- [28] Z. Zhang, S.K. Vajpai, D. Orlov, K. Ameyama, Improvement of mechanical properties in SUS304L steel through the control of bimodal microstructure characteristics, Materials Science & Engineering A 598 (2014) 106-113.
- [29] Z. Zhang*, M. Rifai, H. Kobayakawa, O.P. Ciuca, H. Fujiwara, A. Ueno, K. Ameyama, Effects of SiO2 Particles on Deformation of Mechanically Milled Water-Atomized SUS304L Powder Compacts, Materials Transactions 53 (2012) 109-115.
- [30] Z. Zhang, X. Chen, Multiaxial ratcheting behavior of PTFE at room temperature, Polymer Testing 28 (2009) 288-295.
- [31] Z. Zhang, X. Chen, Y. Wang, Uniaxial ratcheting behavior of polytetrafluoroethylene at elevated temperature, Polymer Testing 29(2010)352-357.
- [32] Z. Zhang, X. Chen, T. Wang, A simple constitutive model for cyclic compressive ratchetting deformation of polyterafluoroethylene (PTFE) with stress rate effects, Polymer Engineering and Science 48 (2008) 29-36.