蒋季伸 | 中法核工程与技术学院

蒋季伸副教授

电子邮箱：jiangjsh3@mail.sysu.edu.cn

研究领域：先进耐事故燃料包壳涂层高温强度及失效机理；高温材料本构模型及数理建模；微纳尺度力学原位测试技术；高温材料与结构强度、疲劳、蠕变及断裂。

一、基本信息

蒋季伸，副教授（硕士生导师）

邮箱：jiangjsh3@mail.sysu.edu.cn

学科方向：核材料与力学

研究领域：

先进耐事故燃料包壳涂层高温强度及失效机理；

高温材料本构模型及数理建模；

微纳尺度力学原位测试技术；

高温材料与结构强度、疲劳、蠕变及断裂。

二、教育背景

2013/09~2019/03 上海交通大学，机械与动力工程学院，动力工程及工程热物理，工学博士；

2009/09~2013/06 大连理工大学，能源与动力工程学院，热能与动力工程，工学学士。

三、工作经历

2022/04~至今中山大学，中法核工程与技术学院，百人计划副教授；

2019/03~2022/03 中山大学，中法核工程与技术学院，博士后。

四、科研项目

国家自然科学基金青年项目，气膜冷却孔自由边效应对热障涂层界面开裂影响机制研究，在研，主持。
国家自然科学基金联合基金重点项目，涂层锆合金的高温力学性能与失效机理研究，在研，子课题主持。
广东省自然科学基金面上项目，组织调控对耐事故Cr涂层高温力学性能及失效行为的影响研究，在研，主持。
动力机械与工程教育部重点实验室，掺氢燃气轮机燃烧室壁面多孔气膜冷却的流/热/固耦合特性及机理研究，在研，主持。
中国博士后基金站前特别资助项目（首批），高温氧化对核燃料包壳ATF涂层力学失效机理影响的研究，结题，主持。
中国博士后基金面上项目，热循环载荷下冷却孔结构对热障涂层界面失效影响的研究，结题，主持。
中广核研究院有限公司委托项目，ATF燃料棒束失水后及再淹没阶段特性研究实验采购，190万元，在研，主持。
高校基本科研业务费-青年教师培育项目，高温拉伸载荷下ATF涂层的表/界面裂纹竞争机制研究，结题，主持。
广东省基础与应用基础研究重大科技专项，基于材料基因工程的先进能源装备材料服役性能评价技术及其应用研究，在研，子课题第二参与人。
中央军委装备发展部项目装备预先研究项目，**的变形失效机理与力学性能原位研究，结题，第一参与人。

五、学术论文

[1] Jiang J, Ma X, Wang B. Positive or negative role of preoxidation in the crack arresting of Cr coating for accident tolerant fuel cladding[J]. Corrosion Science, 2021, 193: 109870.

[2] Jiang J, Du M, Pan Z, et al. Effects of oxidation and inter-diffusion on the fracture mechanisms of Cr-coated Zry-4 alloys: An in situ three-point bending study[J]. Materials & Design, 2021, 212: 110168.

[3] Jiang J, Du M, Ma X. On the microstructures and cracking modes of Cr-coated Zr-4 alloys oxidized and vacuum-annealed at 1000° C[J]. Journal of Alloys and Compounds, 2022, 908: 164610.

[4] Jiang J, Zhai H, Du M, et al. Temperature-dependent deformation and cracking behavior in Cr coating for accident tolerant fuel cladding: An in situ SEM study[J]. Surface and Coatings Technology, 2021, 427: 127815.

[5] Jiang J, Yuan M, Du M, et al. On the crack propagation and fracture properties of Cr-coated Zr-4 alloys for accident-tolerant fuel cladding: In situ three-point bending test and cohesive zone modeling[J]. Surface and Coatings Technology, 2021, 427: 127810.

[6] Jiang J S, Wang D Q, Du M Y, et al. Interdiffusion behavior between Cr and Zr and its effect on the microcracking behavior in the Cr-coated Zr-4 alloy[J]. Nuclear Science and Techniques, 2021, 32(12): 1-12.

[7] X.F. Ma, H.L. Zhai, F.Q. Meng, J.S. Jiang*, et al. Benefit or harm of accident tolerant coatings on the low-cycle fatigue properties of Zr-4 cladding alloy- in-situ studies at 400°C. J. Nucl. Mater., 2021, 545:152651.

[8] J.S. Jiang, D.K. Zhan, J.N. Lv, et al. Comparative study on the tensile cracking behavior of CrN and Cr coatings for accident-tolerant fuel claddings. Surf. Coat. Tech., 2021, 409:126812.

[9] X.F. Ma, W.J. Zhang, Z.J. Chen, D.Yang, J.S. Jiang*, et al. Elastoplastic Deformation and Fracture Behavior of Cr-Coated Zr-4 Alloys for Accident Tolerant Fuel Claddings. Front. Energy Res., 2021, 9:655176.

[10] J.S. Jiang, L. Zuo, X.F. Ma*, et al. In-situ study on the tensile behavior of Cr-coated zircaloy for accident tolerant fuel claddings. Surf. Coat. Tech., 2020, 394: 125747.

[11] X.F. Ma, H.L. Zhai, J.S. Jiang*, et al. Fatigue short crack propagation behavior of selective laser melted Inconel 718 alloy by in-situ SEM study Influence of orientation and temperature. Int. J. Fatigue, 2020, 139:105739.

[12] J.S. Jiang, D. Wu, W.Z. Wang, et al. Fracture behavior of TBCs with cooling hole structure under cyclic thermal loadings. Ceram. Int., 2020, 46(3): 3644-3654.

[13] J.S. Jiang, X.F. Ma*, B. Wang. Stress analysis of the thermal barrier coating system near a cooling hole considering the free-edge effect. Ceram. Int., 2020, 46(1): 331-342.

[14] J.S. Jiang, L.X. Jiang, W.Z. Wang*, et al. Numerical stress analysis of the TBC-film cooling system under operating conditions considering the effects of thermal gradient and TGO growth. Surf. Coat. Tech., 2019, 357: 433-444.

[15] J.S. Jiang, W.Z. Wang*, X.F. Zhao, et al. Numerical analyses of the residual stress and top coat cracking behavior in thermal barrier coatings under cyclic thermal loading. Eng. Fract. Mech., 2018, 196: 191-205.

[16] J.S. Jiang, Z.H. Zou, W.Z. Wang*, et al. Effect of internal oxidation on the interfacial morphology and residual stress in air plasma sprayed thermal barrier coatings. Surf. Coat. Tech., 2018, 334: 215-226.

[17] J.S. Jiang, B.Q. Xu, W.Z. Wang*, et al. Finite element analysis of the effects of thermally grown oxide thickness and interface asperity on the cracking behavior between the thermally grown oxide and the bond coat. J. Eng. Gas Turb. Power, 2017, 139(2): 022504.

[18] J.S. Jiang, W.Z. Wang*, N.L. Zhao, et al. Application of a creep-damage constitutive model for the rotor of a 1000 MW ultrasupercritical steam turbine. J. Eng. Gas Turb. Power, 2016, 138(2): 022606.

[19] J.S. Jiang, J.D. Yang, L. Xiao, et al. Numerical analysis of the impact effect of foreign bodies on a steam strainer in a steam turbine valve. J. Mech. Sci. Tech., 2018, 32(1): 405-413.

[20] J.S. Jiang, Z.W. Cai, W.Z. Wang*, et al. Finite element analysis of thermal-mechanical behavior in the thermal barrier coatings with cooling hole structure. ASME Turbo Expo, 2017, V006T24A011.

[21] Jin D, Jiang J, Di Z, et al. Effect of interface undulation on the high temperature oxidation behaviors of grit-blasted and coated zircaloy in pressurized water[J]. Corrosion Science, 2021, 192: 109839.

[22] C. Lin, J.S. Jiang, H. Ruan, et al. Investigation of non-uniform oxidation based on a mechanochemical phase field model with nonlinear reaction kinetics and large inelastic deformation. npj Materials Degradation, 2023, 7.

[23] H. Zhai, J.S. Jiang, W. Zhang, et al. Microstructure sensitivity of the low cycle fatigue crack initiation mechanisms for the Al0.3CoCrFeNi high entropy alloy: in-situ SEM study and crystal plasticity simulation, Int. J. Fatigue, 2023, 107871.

[24] H. Zhai, W. Zhang, J.S. Jiang, et al. Microstructure relevant fatigue short crack propagation behavior of Al0.3CoCrFeNi high entropy alloy: in-situ SEM study, Int. J. Fatigue, 2023, 107869.

[25] Z.W. Cai, J.S. Jiang, W.Z. Wang*, et al. CMAS penetration-induced cracking behavior in the ceramic top coat of APS TBCs. Ceram. Int., 2019, 45(11): 14366-14375.

[26] X.F. Ma*, J.S. Jiang, W.J. Zhang, et al. Effect of Local Recrystallized Grains on the Low Cycle Fatigue Behavior of a Nickel-Based Single Crystal Superalloy. Crystals, 2019, 9(6): 312.

[27] Z. pan, M. Yuan, J.S. Jiang*, et al. On the tensile fracture behavior of Cr coating for ATF cladding considering the effect of pre-oxidation. ICCEAM, 2021.

[28] M. Yuan, Z. Pan, J.S. Jiang*, et al. Numerical modeling of cracking behavior in Cr coating for ATF cladding under three-point bending. ICCEAM, 2021.

[29] Du M, Wang C, Jiang J*, et al. Three-point bending study on the microscopic fracture behavior of pre-oxidized Cr-coated Zr-4 alloys[C]//Journal of Physics: Conference Series. IOP Publishing, 2021, 2076(1): 012051.

[30] Zhai H, Zhang S, Yang D, Jiang J*, et al. Effect of heat treatment on the microstructure and hardness of Al0. 3CoCrFeNi high entropy alloy[C]//Journal of Physics: Conference Series. IOP Publishing, 2021, 2076(1): 012085.

[31] Hao Yang, J.S. Jiang, Z.Z. Wang, et al. Fatigue Fracture Mechanism of a Nickel-Based Single Crystal Superalloy with Partially Recrystallized Grains at 550 °C by In Situ SEM Studies. Metals, 2020, 10:1007.

[32] B.Q. Xu, J.S. Jiang, X.F. Zhao*, et al. Time-dependent spalling behavior of thermally grown oxide induced by room temperature interfacial deformation. Surf. Coat. Tech, 2018, 334: 164-172.

[33] L. Song, B. Huang, J. Li, X. Ma, M. Liu, J.S. Jiang, Y.Y. Hu. Effects of ion irradiation on Cr, CrN, and TiAlCrN coated Zircaloy-4 for accident tolerant fuel claddings. Ann. Nucl. Energy, 2021, 156:108206.

[34] Z.G. Zheng, Y.B. Peng, J.S. Jiang, et al. In-situ study of the fracture behavior of SiCf-SiC composite material under three-point bending. IOP Conf. Series: Earth and Environmental Science, 2021, 639:012020.

[35] N.L. Zhao, W.Z. Wang*, J.S. Jiang, et al. Study of creep-fatigue behavior in a 1000 MW rotor using a phenomenological lifetime model. J. Mech. Sci. Tech., 2017, 31(2): 605-614.

[36] R.A. Adjei, W.Z. Wang*, J.S. Jiang, et al. Numerical investigation of unsteady shock wave motion in a transonic centrifugal compressor. ASME Turbo Expo, 2017, V008T26A012.

[37] 蒋凌欣, 蒋季伸, 王炜哲*. 体积辐射换热对热障涂层-气膜冷却系统中热障涂层温度场的影响. 动力工程学报, 2019, 06:441-446.