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个人简介

教育背景 2003.09 - 2007.10,上海交通大学,动力机械及工程,博士 2000.09 - 2003.06,上海交通大学,动力机械及工程,硕士 1996.09 - 2000.06,河海大学,热能动力工程,学士 工作经历 2010.04 - :上海交通大学机械与动力工程学院 / 叶轮机械研究所 / 助理研究员、副研究员、研究员 / 博士生导师 2012-2013、2014、2015: 德国斯图加特大学MPA / 访问学者 2007.11 - 2010.03: 上海交通大学机械与动力工程学院 / 机械工程 / 博士后 出访及挂职经历 2019 韩国釜山国立大学 2015/2016/2017/2018/2019 日本石川岛播磨 2014/2015 德国斯图加特大学MPA 2014 /2019韩国科学技术院KAIST 学术会议 ,主题报告/邀请报告 2022年航空发动机人工智能辅助设计论坛,会议邀请报告,2022/10 第五届中国国际透平机械学术会议,会议邀请报告,2022/10 第二届长寿命高温材料高端发展论坛暨2018年先进电站长寿命高温材料学术会议,大会主旨报告,2018/09 第十九届全国疲劳与断裂力学大会,分会场特邀报告,2018/07 第十八届全国疲劳与断裂力学大会,分会场主席,分会场特邀报告 ,2016/04 第四届材料与结构强度青年论坛,大会邀请报告,2017/07/23 第六届材料与结构强度青年论坛,大会邀请报告,2019/08/04 科研项目 主持项目: 50) 2022-2023,企业合作,燃机透平叶片强度评估及裂纹预测技术研究 49) 2022-2022, 企业合作,H级联合循环汽轮机三维数字孪生体技术的可视化寿命实时在线计算 48) 2022-2022, 企业合作,H级联合循环汽轮机三维数字孪生体技术的智能化运行方式研究及优化 47) 2021-2022,企业合作,基于虚拟DCS技术的船用助推动力系统数字化软件开发 46) 2021-2022,企业合作,超低温阀门的流动和强度预测及优化技术 45) 2021-2022,国际合作,现场传感数据驱动下高速旋转部件温度场数字孪生体 44) 2021-2022,企业合作,现场传感数据驱动下厚壁部件热力数字孪生体 43) 2020-2021,企业合作,特种阀门的高温蠕变作用机制及应对措施 42) 2019-2020,国际合作,电站系统全范围故障库开发及智能预警研究 41) 2019-2020,企业合作,动力保障系统XX动态性能实时仿真及分析 40) 2019-2020,国际合作,基于虚拟DCS技术的全范围、全工况数字化电站仿真系统 39) 2019-2020,企业合作,煤电机组寿命评估要素分析与延寿策略 38) 2019-2020,企业合作,某发动机盐雾腐蚀环境下结构疲劳设计方法研究 37) 2019-2020,企业合作,蠕变疲劳交互作用下预紧配合结构力学行为研究 36) 2019-2020,企业合作,蠕变疲劳交互作用下金属接触密封的变形及寿命研究 35) 2019-2022,国家自然科学基金面上项目(No. 51875341 ,燃气轮机叶片含孔热障涂层中TGO热生长及其对涂层多层结构应力演化影响的研究 34) 2018-2021,国家“两机专项”(No. 2017-V-0002)子课题,XXX盐雾腐蚀XXX技术 33) 2018-2019,国际合作,Analysis and modeling of heat transfer in automotive turbochargers 32) 2018-2019,国际合作,电站全范围运行优化的数字化动态系统研发 31) 2017-2018,企业合作,快速冷启准则制定、结构优化及强度评估 30) 2016-2019,国际合作,燃气轮机关键技术:结构热力状态评估及预测技术手段 29) 2016-2019,国际合作,材料老化特性对断裂力学参数影响的方法研究 28) 2016-2018,企业合作,蠕变疲劳交互作用下局部高温区多结构的变形及寿命评价研究 27) 2016-2018,企业合作,快速冷启承压结构变形及强度优化 26) 2016-2017,企业合作,HW**试验管理平台方案设计 25) 2016-2017,企业合作,基于冷却技术的700°C阀门结构设计及安全评估方法 24) 2016-2017,企业合作,700°C下高温承压部件结构强度分析及安全评估流程研究 23) 2016-2017,国际合作,Design optimization of compressor impeller with optimization tool 22) 2015-2016,国际合作,Rotor disk 3D feature analysis and optimization method study 21) 2015-2016,国际合作项目—斯图加特大学合作,高温部件试验及剩余寿命评估 20) 2015-2016,国际合作,高速离心压缩机动静干涉作用的数值研究 19) 2015-2016,国际合作,Combustor structure analysis 18) 2015-2016,企业合作,1200MW超超临界中压模块强度预测及安全评估 17) 2015-2017,企业合作,现役超超临界机组关键部位损伤取样分析技术研究 16) 2014-2015,上海交大学科技创新专项,燃气轮机热端部件强度分析和结构设计安全评估方法研究 15) 2014-2015,企业合作,蒸汽滤网冲击性能分析 14) 2014-2015,企业合作,蒸汽燃气联合循环HIP流动换热及结构安全分析 13) 2012-2013,企业合作,超高压承压部件和高速旋转部件启停优化及蠕变疲劳寿命评估 12) 2011-2013,上海航天基金,点发热源驱动空间温度变化分析及结构优化 11) 2011-2012,企业合作,大型核电低压转子应力腐蚀疲劳寿命评估 10) 2011-2012,企业合作,新型高压阀门设计方法及安全评估技术 9) 2011-2012,企业合作,转动部件狭隙环腔内流固耦合传热及预测技术 8) 2010-2011,企业合作,高温旋转部件蠕变疲劳耦合寿命损伤计算 7) 2010-2012,国家自然科学基金,接触式高压气流密封接触点传热及流固耦合传热研究 6) 2009-2010,机械系统与振动国家重点实验室开放基金,先进密封流固热力预测技术 5) 2010-2011,上海交通大学“青年教师启动计划”,指尖密封的高温蠕变及滞后效应 4) 2010-2011,上海交通大学 “医工(理 交叉研究基金”,动静脉畸形数字化仿真技术 3) 2010-2011,企业合作,高温部件大螺纹环及其附件结构分析和设计规范的建立 2) 2009-2010,企业合作,超超临界660MW机组高温部件蠕变疲劳强度计算 1) 2009-2010,上海飞机设计研究院,起落架缓冲器密封技术研究 教学工作 《能源动力装备大数据管理》(致远荣誉计划) 1. 机械与动力仿真实践(能动类),授课对象:本科,学时:64,学分4 2. 动力机械强度与分析,授课对象:本科,学时:48,学分3 3. PRP, 《飞机起落架缓冲器密封装置性能数字化仿真》 4. WPI国际学生工程合作项目,《Flame temperature distribution inroom》(学生暑期赴美为期两个月项目合作) 5. WPI国际学生工程合作项目,《Laser imaging system 》(学生暑期赴美为期两个月项目合作) 6. WPI国际学生工程合作项目,《Design of Mobile Fire Products Collector》(学生暑期赴美为期两个月项目合作) 7. PRP,《燃气轮机热障涂层内TGO动态生长仿真计算》 软件版权登记及专利 专利软件 1.专利软件名称:密封结构参数管理软件, 授权号:2009SR050154 2.专利软件名称:空压机内密封泄漏流动分析软件, 授权号:2009SR050163 3.专利软件名称:密封系统非线性转子动力学分析软件, 授权号:2009SR050167 4.专利软件名称:气流激振力分析软件, 授权号:2009SR049996 5.专利软件名称:密封泄漏分析软件, 授权号:2009SR050165 专利 1.袁鹰; 金永明; 蒋浦宁; 刘应征; 柯峰; 王炜哲, 动态压力传感器在线标定连接装置, 2006-10-11, 中国, ZL200520041732.1. 2.自抑制泄漏的密封结构形式,专利号:ZL 2012 2 0497548.8 3.自抑制有效通流面积的齿形结构,专利号:ZL 2012 2 0498041.4 4.齿顶间隙局部增阻密封齿形结构,专利号:ZL 2012 2 0498052.2 5.彭迪; 陈佳伟; 郭仲秋; 王炜哲; 刘应征, 一种基于AAO模板的柔性快响应PSP测试装置、方法与应用, 2017-08-17, 中国, CN201710707848.1 6. 基于降阶模型的瞬态热力状态在线评估方法、设备及介质,申请号:202111043443.5 7. 多相复合结构图像的载荷状态快速评估方法及设备,申请号:202210471459.4 荣誉奖励 2010, SMC-晨星优秀青年教师 2011, 新进青年教师启动计划 2015,年度考核优秀 2018, 上海交通大学机械与动力工程学院“最受欢迎毕业生导师”

研究领域

正向设计和预测: * 极端环境下的结构热力协同管理(发动机热端部件,新能源电动车电池热管理) * 高温结构强度设计方法及安全评价(燃机、航空航天发动机等高端动力装备) * 光学薄膜光-热-力-腐机理(集成电路中超精密设备中的光、热、力协同设计) 逆向设计和监测: * 传感与计算融合:传感采集及物理驱动模型互联融合的快速预测技术(数字孪生体技术,实现时空算法和传感器互联,时空四维信息场监测) * 边缘端计算:时空热力状态的超级降阶技术—设计、监测、诊断一体化(边缘端技术,实现数字孪生体技术与硬件集成,工业部件的物联) * 热力数字孪生体技术、虚拟现实及增强(AR/VR等,与边缘端和数字孪生技术集成,智能监测) 基于互联网技术的应用 * 基于工业以太网架构的动力系统实时仿真及控制(工业控制系统为对象,孪生工业流程系统,实现智能控制) * 系统结构热力状态的在线健康感知(物联网应用,低维数字孪生(仪器仪表动态过程+机器学习)和高维数字孪生(部件结构三维空间的信息实时计算),云-边协同)

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

(*-通讯作者) =>Han DONG; Han WANG; Genghui JIANG; Zhenwei CAI; Weizhe Wang; Yingzheng LIU, An adaptive partitioned reduced order model of peridynamics for fast fracture simulation, Computer Methods in Applied Mechanics and Engineering, Under review, Apr. 2023 => Genghui Jiang, Ming Kang, Zhenwei Cai, Han Wang, Yingzheng Liu, Weizhe Wang(*), Efficient reduced-order model for multiaxial creep–fatigue analysis based on a unified viscoplastic constitutive model, International Journal of Fatigue, Submitted, 2023 => Han Dong, Han Wang, Zhenwei Cai, Weizhe Wang(*), Yingzheng Liu, An enhanced adaptive coupling strategy of peridynamics and finite element method via variable horizon approach for simulating quasi-static fracture problems, Engineering Fracture Mechanics, Under Review, 2022 => Han DONG, Han WANG, Zhenwei CAI, Weizhe WANG(*), Yingzheng LIU, A coupling approach of peridynamics and finite element method for analyzing the effect of vertical crack density on interfacial delamination in thermal barrier coatings, Fatigue & Fracture of Engineering Materials & Structures, Submitted, 2023 =>Genghui Jiang, Ming Kang, Zhenwei Cai, Han Wang, Yingzheng Liu, Weizhe Wang(*), An efficient hyper-reduction model for thermo-mechanical coupling analysis of high-temperature components, ASME Journal of Engineering for Gas Turbines and Power, Under Review, 2023 2023年论文 [152] Zhenwei Cai, Lijie Qiao, Xiaofeng Zhao, Weizhe Wang(*), Stress evaluation of TBCs with inclined film-cooling hole considering CMAS penetration-induced change of thermo-mechanical properties, Engineering Failure Analysis, Accept, May, 2023. [151]Han Wang, Han Dong, Zhenwei Cai, Yingzheng Liu, Weizhe Wang(*), Corrosion fatigue crack growth in stainless steels: A peridynamics-based numerical study, International Journal of Mechanical Sciences, Accept, May, 2023 [150] Luyuan Ning, Lijie Qiao, Zhenwei Cai, Yingzheng Liu, Weizhe Wang(*), Elasticity-mechanics-informed generative adversarial networks for predicting the thermal strain of thermal barrier coatings penetrated by CaO–MgO–Al2O3–SiO2, European Journal of Mechanics - A/Solids, accept, May 2023. [149] Ming Kang, Shifang Wu, Yingzheng Liu, Weizhe Wang(*), Viscoplastic model-based analysis of in-service oscillation temperature and thermal stress in a rotating component, International Journal of Thermal Sciences, Accepted, Feb., 2023 [148]Luyuan Ning, Zhenwei Cai, Han Dong, Yingzheng Liu, Weizhe Wang(*), A peridynamic-informed neural network for continuum elastic displacement characterization, Computer Methods in Applied Mechanics and Engineering, Accepted, Jan. 2023 [147]Han WANG, Zhenwei CAI, Han DONG, Yingzheng LIU, Weizhe WANG(*), Mechanical-chemical-coupled peridynamic model for the corrosion fatigue behavior of a nickel-based alloy, International Journal of Fatigue, 168, 2023 2022年论文 [146] Han Wang, Han Dong, Zhenwei Cai, Yuhang Li, Weizhe Wang(*), Yingzheng Liu, Peridynamic-based investigation of the cracking behavior of multilayer thermal barrier coatings, Ceramics International, 48(16): 23543-23553, 2022 [145] Genghui Jiang, ChenhaoTan, Wenwei Jiang, Kai Yang, Weizhe Wang, Xiaowei Gao, Shape reconstruction in transient heat conduction problems based on radial integration boundary element method, International Journal of Heat and Mass Transfer, 2022, 191: 122830 [144]Genghui Jiang, Ming Kang, Zhenwei Cai, Han Wang, Yingzheng Liu, Weizhe Wang(*), Online reconstruction of 3D temperature field fused with POD-based reduced order approach and sparse sensor data , International Journal of Thermal Sciences, 175, 107489, 2022. [143]Genghui Jiang, Ming Kang, Han Wang, Zhenwei Cai, Yingzheng Liu, Weizhe Wang(*), Data-driven temperature estimation of non-contact solids using deep-learning reduced-order models, International Journal of Heat and Mass Transfer, 185, 122383, 2022. [142]Shifang Wu, Ming Kang, Zhenwei Cai, Weizhe Wang(*), Multi-axial creep-fatigue analysis of a cracked groove structure subjected to cyclic thermal loading, Engineering Failure Analysis, 131, 105826, 2022. 2021年论文 [141]Zhang, X., Shao, H., Zhou, W.*., Wang, W. Z., and Liu, Y. A Comprehensive Heat Transfer Study Inside a Steam Turbine Valve: Experiment, Numerical Simulation, and Simplified Model, ASME. J. Eng. Gas Turbines Power. September 2021,143(9). [140]ZhenWei Cai1, Zi-Fan Zhang, Ying-Zheng Liu, Xiao-Feng Zhao , Wei-Zhe Wang(*), Numerical Study on Effect of Non-Uniform CMAS Penetration on TGO Growth and Interface Stress Behavior of APS TBCs, Chinese Journal of Mechanical Engineering, 34:128, 2021. [139]Luyuan Ning, Zhenwei Cai, Yingzheng Liu, Weizhe Wang(*), Conditional generative adversarial network driven approach for direct prediction of thermal stress based on two-phase material SEM images, Ceramics International, 47(24): 34115-34126, 2021. [138]Luyuan Ning, Zhenwei Cai, Xiaofeng Zhao, Yingzheng Liu, Weizhe Wang(*), Fast Stress Evaluation of the Top Coat of Thermal Barrier Coatings under CaO–MgO–Al2O3–SiO2 Penetration Based on Image Recognition and an Artificial Neural Network, Ceramics International, 47(13), 18252-18261,2021 [137]Han WANG, Zhenwei CAI, Zifan ZHANG, Yingzheng LIU, Xiaofeng ZHAO, Weizhe WANG(*), Dynamic evolution of nonuniform temperature-stress distributions in continuously eroding thermal barrier coatings, Surface & Coatings Technology, 2021, 401, 126946 . [136]R.A. Adjei, C.W. Fan, W.Z. Wang(*), Y.Z. Liu, Multidisciplinary Design Optimization for Performance Improvement of an Axial Flow Fan using Freeform Deformation, ASME Journal of Turbomachinery, Jan 2021, 143(1): 011003-1-18 [135]H. Hong, Z.W. Cai, W.Z. Wang(*), Y.Z. Liu, An Online Monitoring Method for Creep-Fatigue Life Consumption with Real-Time Damage Accumulation, International Journal of Damage Mechanics, 30(5) 764–785, 2021. [134]Chen, W., Liu, Y., Wang, W., Zhao, X., Peng, D.*, 2021, “Interface detection in laser drilling of air plasma sprayed thermal barrier coatings by laser-induced breakdown spectroscopy”, Optics and Lasers in Engineering, vol.137, 106351. [133] H Wang, ZW Cai, WZ Wang(*), YZ Liu, Peridynamic Simulation of Cracking Behavior in Thermal Barrier Coatings, the 14th International Conference on Damage Assessment of Structure, Shanghai, Oct.29-Nov.1, 2021 (Journal of Physics: Conference Series, 2184 (2022) 012045) 2020年论文 [132]H. Hong, Z.W. Cai, H. Wang, W.Z. Wang(*), Y.Z. Liu, A Model-Guided Neural Network for the Prediction of Creep Behavior under In-Service Conditions, ASME Journal of Engineering for Gas Turbines and Power, 2020, 142(7): 071008-18 [131]Z.W. Cai, H. Hong, X.F. Zhao, W.Z. Wang(*), Y.Z. Liu, Z.M. Cao, A numerical study of the influence of interface morphology on the stress behavior in thermal barrier coatings near an inclined-film cooling hole, Ceramics International, 2020, 46(11), 18142-18150 [130]Z.W. Cai, H. Hong, D. Peng, X.F. Zhao, W.Z. Wang(*), Y.Z. Liu, Z.M. Cao, Stress evolution in ceramic top coat of air plasma-sprayed thermal barrier coatings due to CMAS penetration under thermal cycle loading, Surface & Coatings Technology, 381(15), 2020, 125146 [129]J.S. Jiang, D.WU, W.Z. Wang, X.F. Zhao, X.F. Ma, B. Wang, H.J. Shi, Fracture behavior of TBCs with cooling hole structure under cyclic thermal loadings, Ceramics International, 3(46), 2020: 3644-3654 [128]T. Cai, ,S. Guo, Y. Li, D.* Peng, X.* Zhao, W.Z. Wang, Y.Z. Liu, Ultra-Sensitive Mechanoluminescent Ceramic Sensor based on Air-Plasma-Sprayed SrAl2O4:Eu2+, Dy3+ Coating, Sensors and Actuators A: Physical, 315, 2020:112246. 2019年论文 [127]H. Hong, W.Z. Wang(*), Y.Z. Liu, High-temperature fatigue behavior of a turbine rotor under flexible operating conditions with variable loading amplitudes, International Journal of Mechanical Sciences, 163, 2019, 105121 [126]R.A. Adjei, W.Z. Wang(*), Y.Z. Liu, Aerodynamic Design Optimization of an Axial Flow Compressor Stator Using Parameterized Free-Form Deformation, ASME JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER, 2019, 141(10): 101015 [125]Z.W. Cai, J.S. Jiang, W.Z. Wang(*), Y.Z. Liu, Z.M. Cao, CMAS penetration-induced cracking behavior in the ceramic top coat of APS TBCs, Ceramics International, 2019, 45(11), 14366-14375 [124]N.L. Zhao, Anish Roy,W.Z. Wang, Liguo Zhao,Vadim V. Silberschmidt, Coupling crystal plasticity and continuum damage mechanics for creep assessment in Cr-based power-plant steel, Mechanics of Materials, 2019, 130, 29-38. [123]J.S. Jiang, L.X. Jiang, X.F. Zhao, W.Z. Wang(*), Y.Z. Liu, Z.M. Cao, Numerical stress analyses of the TBC-film cooling system under the operating condition considering the effects of thermal gradient and TGO growth, Surface & Coatings Technology, 2019, 357, 433-444 [122]W.Z. Wang(*), Y.Z. Liu, Continuum damage mechanics-based analysis of creep-fatigue-interaction behavior in a turbine rotor, International Journal of Damage Mechanics, 2019, 28(3), 455-477 [121]Fuqi Li, Bryan Quay, Peng Wang, Domenic A. Santavicca, Weizhe Wang, Sihua Xu, and Yingzheng Liu, Transient thermal behaviors of a scaled turbine valve: Conjugate heat transfer simulation and experimental validation, International Journal of Heat and Mass Transfer,2019, 141, 116-128 [120]Guo Songtao, Cai Tao, Zhao Xiaofeng, Peng Di, Xiao Ping, Wang Weizhe, Liu Yingzheng, Generalization of the quantitative stress-intensity relationship of mechanoluminescent sensor SrAl2O4:Eu2+,Dy3+ in elastic domain, Measurement Science and Technology,2019,30(7) 2018年论文 [119]Li, Y., Peng, D., Wang, W.Z., Liu, Y., Oouchida, S., Kawakubo, T., Yakushiji, A., Comparison of PSP and TSP Measurement Techniques for Fast Rotating Blades, AIAA Aviation 2018, AIAA 2018-3317. [118]J.S. Jiang, X.F. Zhao, W.Z. Wang(*), Y.Z. Liu, Z.M. Cao, Numerical analyses of the residual stress and top coat cracking behavior in thermal barrier coatings under cyclic thermal loading, Engineering Fracture Mechanics, 2018, 196(1): 191-205 [117]J.S. Jiang, Z.H. Zou, W.Z. Wang(*), X.F. Zhao, Y.Z. Liu, Z.M. Cao, Effect of internal oxidation on the interfacial morphology and residual stress in air plasma sprayed thermal barrier coatings, Surface & Coatings Technology, 2018, 334(25):215-226 [116]B.Q. Xu, J.S. Jiang, Z.H. Zhou, W.Z. Wang, X.F. Zhao(*), Y.Z. Liu, P. Xiao, Time-dependent spalling behavior of thermally grown oxide induced by room temperature interfacial deformation, Surface & Coatings Technology, 2018, 334(25): 164-172 [115]J.S. Jiang, J.D. Yang, L. Xiao, S.H. Xu, W.Z. Wang(*), Y.Z. Liu, Numerical analysis of the impact effect of foreign bodies on a steam strainer in a steam turbine valve, Journal of Mechanical Science and Technology, 2018, 32 (1) :405-413 [114]N.L. Zhao, W.Z. Wang(*), Y.Z.Liu, Intergranular mechanical behavior in a blade groove-like component by crystal plasticity model with cohesive zone model, Engineering Fracture Mechanics, 2018, 201(1):196-213 [113]R.A. Adjei, W.Z. Wang(*), D. Peng, T. Bamba, Y.Z. Liu, Non-Uniform Tip Clearance Effects on Turbocharger Compressor Performance, Proceedings of ASME Turbo Expo, June 11-15, Norway, 2018 [112]Yifeng Hu, Gang Chen, Weizhe Wang, Investigation of Stress-Strain Behavior of a Component Under Variable Frequency Non-Proportional Loading, GT2018ASME Turbo Expo 2018 , June 11-15, 2018, Oslo, Norway [111]Li Yongzeng, Peng Di, Wang Weizhe, Liu Yingzheng, Oouchida Satoshi, Kawakubo Tomoki, Yakushiji Akimitsu, Comparison of PSP and TSP measurement techniques for fast rotating blades, 34th AIAA Aerodynamic Measurement Technology and Ground Testing Conference, 2018, 2018-06-25 To 2018-06-29 2017年论文 [110]W.Z. Wang(*), S.H. Xu, Y.Z. Liu, Numerical investigation on creep-fatigue behavior in a steam turbine inlet valve under cyclic thermo-mechanical loading, ASME Journal of Engineering for Gas Turbines and Power, 2017, 139(11), 112502-112502-15. [109]N.L. Zhao, W.Z. Wang(*), J.S. Jiang, Y.Z. Liu, Study of Creep-Fatigue Behavior in a 1000 MW Rotor Using a Phenomenological Lifetime Model, Journal of Mechanical Science and Technology, 2017, 31(2): 605-614. [108]J.S. Jiang, B.Q. Xu, W.Z. Wang(*), Richard Adjei, X.F. Zhao, Y.Z. Liu, 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, ASME Journal of Engineering for Gas Turbines and Power, 2017, 139: 022504-1-9. [107]Z.W. Cai, W.Z. Wang(*), H. Hong, R5 Code Based Creep Analysis of a Thick-Wall Cylinder With Steam Film Cooling Hole Structure, ASME PVP July 16-20, USA, 2017 [106]J.S. Jiang, Z.W. Cai, W.Z. Wang(*), Y.Z. Liu, Finite element analysis of thermal-mechanical behavior in the thermal barrier coatings with cooling holes structure, Proceedings of ASME Turbo Expo, June 26-30, USA, 2017 [105]R. A. Adjei, W.Z. Wang(*), J.S. Jiang, Y.Z. Liu, T. Kawakubo, Numerical investigation of unsteady shock wave motion in a transonic centrifugal compressor, Proceedings of ASME Turbo Expo, June 26-30, USA, 2017 2016年论文 [104]W.Z. Wang(*), P. Buhl, A. Klenk, Y.Z. Liu, A continuum damage mechanics-based viscoplastic model of adapted complexity for high temperature creep-fatigue loading, ASME Journal of Engineering for Gas Turbines and Power, 2016, 138(9), 092501-10. [103]W.Z. Wang(*), P. Buhl, A. Klenk, Y.Z. Liu, The effect of in-service steam temperature transients on the damage behavior of a steam turbine rotor, International Journal of Fatigue, 2016,87, 471–483. [102]W.Z. Wang(*), P. Buhl, A. Klenk, Y.Z. Liu, Influence of high-temperature dwell time on creep-fatigue behavior in a 1000 MW steam turbine rotor, Engineering Fracture Mechanics, 2016, 166, 1-22. [101]W.Z. Wang(*), P. Buhl, A. Klenk, Y.Z. Liu, Study of creep-fatigue behaviour in a 1000 MW rotor using a unified viscoplastic constitutive model with damage, International Journal of Damage Mechanics;25(2): 178-202, 2016 [100]N.L. Zhao, W.Z. Wang(*), J.H. Zhang, Y.Z. Liu, Numerical investigation on life improvement of low-cycle fatigue for an ultra-supercritical steam turbine rotor, Journal of Mechanical Science and Technology, 2016, 30(4), 1747-1754 [99]N.L. Zhao, W.Z. Wang(*), H. Hong, Richard Adjei, Y.Z. Liu, Mechanical behavior study of steam turbine casing bolts under in-service conditions, ASME TURBO EXPO 2016 [98]H. Hong, W.Z. Wang(*), N.L. Zhao, Z.W. Cai, Y.Z. Liu, Influence of temperature and pressure fluctuation on the mechanical behavior of a seal structure in steam turbine valve under in-service condition, ASME TURBO EXPO 2016 [97]Z.W. Cai, W.Z. Wang (*), Y.Z. Liu, R5 procedure based damage estimation in a steam turbine valve under in-service conditions, ASME Pressure Vessels and Piping, Canada, Vancouver, 2016 [96]H. Hong, W.Z. Wang (*), Y.Z. Liu, Fatigue life investigation of a high pressure inner casing under in-service conditions, ASME Pressure Vessels and Piping, Canada, Vancouver, 2016 [95]Z.W. Cai, W.Z. Wang(*), Y.Z. Liu, Numerical study of steam film cooling behavior in a thick-wall cylinder, 9th China-Japan Bilateral Symposium on High Temperature Strength of Materials, Changsha, China, 2016. [94]Richard A. Adjei, Weizhe Wang(*), Nailong Zhao, Yingzheng Liu,Fatigue and lifetime estimation of a highly stressed centrifugal compressor impeller(分组特邀报告),第十八届全国疲劳与断裂学术会议, 2016 2015年论文 [93]W.Z. Wang(*), Y.Z. Liu, Analysis of the sealing performance and creep behavior of the inner casing of a 1000 MW supercritical steam turbine under bolt relaxation, Engineering Failure Analysis, 57: 363-376, 2015 [92]W.Z. Wang(*), Y.Z. Liu, P.N. Jiang, Numerical investigation on influence of real gas properties on nonlinear behavior of labyrinth seal-rotor system, Applied Mathematics and Computation, 263: 12-24, 2015 [91]W.Z. Wang(*), P. Buhl, A. Klenk , A unified viscoplastic constitutive model with damage for multi-axial creep-fatigue loading, International Journal of Damage Mechanics, 24(3): 363-382, 2015 [90]J.S. Jiang, W.Z. Wang (*), Y.Z. Liu, Application of a creep-damage constitutive model for the rotor of a 1000 MW ultrasupercritical steam turbine, ASME Journal of Engineering for Gas Turbines and Power, 2015, 138(2):022606-022606-6 [89]J.F. Mao, W.Z. Wang(*), J.H. Zhang, Y.Z. Liu, Numerical investigation on the dynamic behaviors of turbine valve disc–seat impact at low velocity, Journal of Mechanical Science and Technology, 29(2):1-9, 2015 [88]G.C. Jiao, W.Z. Wang(*), S.J. Tan, C. Yu, Y.Z. Liu, Crack-tip constraint analysis of SENB specimen under creep condition, Journal of Mechanical Science and Technology, 29 (2):1-6, 2015 [87]Z.W. Cai, W.Z. Wang (*), Study of Creep Damage of a Thin-wall Outer Casing of a 1000MW Ultra-supercritical Steam Turbine, The 13th Asian International Conference on Fluid Machinery, 7th-10th Sept., WASEDA University, Tokyo, Japan, 2015 [86]H. Hong, W.Z. Wang (*), Numerical Investigation of Creep Behavior of an Inner Casing of a 1000MW Ultra-supercritical Steam Turbine, The 13th Asian International Conference on Fluid Machinery, 7th-10th Sept., WASEDA University, Tokyo, Japan, 2015 [85]J.S. Jiang, W.Z. Wang (*), Y.Z. Liu, Application of a creep damage constitutive model for the rotor of a 1000 MW ultra-supercritical steam turbine, ASME Journal of Engineering for Gas Turbines and Power, ASME TURBO EXPO 2015, Montreal, Canada, 2015 2014年论文 [84]W.Z. Wang(*), Analysis of multi-axial creep-fatigue damage on an outer cylinder of a 1000MW supercritical steam turbine, ASME Journal of Engineering for Gas Turbines and Power, 136(11): 112504-112504-8, 2014 [83]W.Z. Wang(*), Numerical analysis of fatigue life improvement by optimizing the startup phase for a 1000 MW supercritical steam turbine inner casing, ASME Journal of Engineering for Gas Turbines and Power, 137(4):042601-042601-10, 2014 [82]W.Z. Wang(*), J.H. Zhang, Influence of creep on low-cycle fatigue life assessment of ultra-supercritical steam turbine rotor, ASME TURBO EXPO 2014, June 16-20, Dusseldorf, Germany, 2014 [81]W.Z. Wang(*), Chao Yu, Junhui Zhang, Yingzheng Liu, Numerical investigation on creep and fatigue behavior of a 1000 MW steam turbine inner cylinder [C. International Conference on Fatigue Damage of Structural Material X, The Resort and Conference Center at Hyannis, MA, USA, 21-26 September 2014 [80]J.F. Mao, W.Z. Wang(*), Y.Z. Liu, J.H. Zhang, Comparative study of flange-to-seal contact couplings with bolt relaxation under creep condition, ASME Journal of Engineering for Gas Turbines and Power, 136(7):072504-072504-8, 2014 [79]J.F. Mao, W.Z. Wang, Environmental fatigue analysis of a U seal in pressure vessel under simulated LWR operation, Engineering Failure Analysis, 36: 362-371, 2014 2013年以前发表论文. [78]Mao Jianfeng, Zhang Junhui, Wang Weizhe(*), The multiaxial creep strength analysis coupling with damage evolution for 3D innercasing of the USC turbine system, 2nd International Conference on Materials Science and Engineering, ICMSE 2013, 2013-03-08 To 2013-03-10. [77]Jianfeng Mao, Junhui Zhang, Weizhe Wang(*), Yingzheng Liu, Creep-Fatigue Life Prediction of Stop and Regulating Valves on the Intermediate-Pressure Section of a 1000MW Steam Turbine, GT2013 ASME Turbo Expo 2013, June 3-7, 2013, San Antonio, Texas, USA [76]J.F. Mao, W.Z. Wang(*), Y.Z. Liu, Experimental and theoretical investigation on the sealing performance of the combined seals for reciprocating rod, Journal of Mechanical Science and Technology, 26(6): 1765-1772, 2012 [75]P.N. Jiang, W.Z. Wang(*), Y.Z. Liu, G. Meng, Influence of steam leakage through vane, gland, and shaft seals on rotordynamics of high-pressure rotor of a 1,000 MW ultra-supercritical steam turbine, Archive of Applied Mechanics, 82(2): 177-189, 2012 [74]G.C. Jiao, W.Z. Wang(*), Crack-tip constraint analysis of two collinear cracks under creep condition, Structural Engineering and Mechanics, 43(3): 311-320, 2012 [73]J.F. Mao, W.Z. Wang(*), Y.Z. Liu, J.H. Zhang, Multiaxial creep-fatigue life prediction on the rotor of a 1000MW supercritical steam turbine, GT-2012 ASME Turbo Expo, Copenhagen, Denmark, June 11-15, 2012 [72]G.C. Jiao, G. Chen, W.Z. Wang(*), A model to predict the stress corrosion cracking growth rate of the metallic materials, GT-2012 ASME Turbo Expo, Copenhagen, Denmark, June 11-15, 2012 [71]P.N. Jiang, W.Z. Wang(*), G.C. Jiao, Analysis of high temperature creep on the nut connection components of a 600MW supercritical steam turbine, GT-2012 ASME Turbo Expo, Copenhagen, Denmark, June 11-15, 2012 [70]W.Z. Wang , Ying Zheng Liu, Guang Meng, Pu Ning Jiang, Influence of rub groove on rotordynamics associated with leakage air flow through a labyrinth seal, Journal of Mechanical Science and Technology, 2010,24(8):1573-1581, 2010.04 [69]Yu Jun, Shi Liu liu, Wang Wei zhe, Liu Ying zheng*, CONDITIONAL AVERAGING OF TR-PIV MEASUREMENTS OF WAKE BEHIND SQUARE CYLINDER USING AN IMPROVED CROSS-CORRELATION APPROACH, Journal of Hydrodynamics, 2010, 22(1): 29-34. [68]W.Z. 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Wang, Chen Han-ping, .Jing Jian-ping, GE Qing, YUAN Ying, Influence of leakage flow through labyrinth seals on rotordynamics: numerical calculations and experimental measurements, Archive of Applied Mechanics, Archive of Applied Mechanics, 2007, 77(8): 599-612. [63]W.Z. Wang, LIU Ying-zheng, JIANG Pu-ning CHEN Han-ping, Numerical analysis of leakage flow through two labyrinth seals, Journal of Hydrodynamics Ser.B, 2007, 19(1): 107-112. [62]Liu Ying zheng, Ke Feng, Wang Wei zhe, Cao Zhao min, PRESSURE-VELOCITY JOINT MEASUREMENTS OF A WALL-BOUNDED TURBULENT SHEAR FLOW, Journal of Hydrodynamics, 2006, 18(3): 315-318. [61]Ke Feng*, Liu Ying zheng, Jin Chun yu, Wang Weizhe, EXPERIMENTAL MEASUREMENTS OF TURBULENT BOUNDARY LAYER FLOW OVER A SQUARE-EDGED RIB,Journal of Hydrodynamics, 2006, 18(3): 461-464. 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[55]张子凡,韩彦冬,王炜哲,蔡振威,CMAS 渗透下热障涂层界面失效分析,航空动力学报,2021,36(8):1702-1711 [54]陈强强,吴仕芳,康明,洪辉,蔡振威,王炜哲(*),汽轮机高压缸金属块接触密封蠕变强度与蠕变变形分析,中国电机工程学报, 2021,41(7):2455-2462 [53]罗淇元,韩彦冬,蔡振威,王炜哲(*), 基于NARX神经网络的汽轮机转子温度变化趋势实时预测,热能动力工程,2021,36(7):39-45 [52]张子凡,蔡振威,王炜哲(*),彭迪,刘应征,循环热力载荷下含冷却孔热障涂层的强度分析,湘潭大学学报(自然科版), 2019,41(6):104~112 [51]蔡振威,洪辉,王炜哲(*),刘应征,CMAS渗透对APS热障涂层应力及开裂的影响,第九届国际稀土开发与应用研讨会暨2019中国稀土学会学术年会,2019 [50]王炜哲(*),蔡振威,洪辉,彭迪,刘应征,复杂载荷下含冷却孔APS热障涂层的结构强度分析,第九届国际稀土开发与应用研讨会暨2019中国稀土学会学术年会,2019 [49]牛鹏坤,洪辉,王炜哲(*),基于改进遗传算法的电站锅炉效率优化,热能动力工程,2020,35(3):111-115 [48]周觉,蔡振威,王炜哲(*),基于R5规范的超超临界汽轮机阀门损伤评估,动力工程学报,2019,39(09):705-710,724 [47]蒋凌欣,蒋季伸,王炜哲(*),体积辐射换热对热障涂层—气膜冷却系统中涂层温度场的影响,动力工程学报,2019,39(06):441-446 [46]陈诗坤,王鹏,蔡振威,洪辉,王炜哲(*),定参数快速冷启动过程中主汽-调节阀结构强度分析及优化,动力工程学报,2019,39(05):360-365,372 [45]赵乃龙,王炜哲(*),主蒸汽温度和压力波动对汽轮机转子蠕变疲劳损伤的影响,上海交通大学学报,2019,53(02),127-133 [44]王炜哲(*),刘应征,蠕变-疲劳-损伤耦合行为本构模型及其在汽轮机高温转子中的应用,第十九届全国疲劳与断裂学术会议,沈阳,2018.8.15-17(邀请报告) [43]洪辉,王炜哲(*),高温蠕变下裂纹干涉对损伤行为的影响研究,第十九届全国疲劳与断裂学术会议,沈阳,2018.8.15-17 [42]蒋季伸,王炜哲(*),刘应征,高温环境下热障涂层-气膜冷却系统的应力分析,第十九届全国疲劳与断裂学术会议,沈阳,2018.8.15-17 [41]蔡振威,王炜哲(*),刘应征,不同冷却速率对TRISO 核燃料多层结构强度影响的研究,高第十九届全国疲劳与断裂学术会议,沈阳,2018.8.15-17 [40]苏虎,王炜哲(*)等,启停运行工况下超超临界机组高压缸平衡活塞区域结构强度与间隙变化分析,动力工程学报,2018,38(09):713-718,731 [39]朱东晓,王炜哲(*),水蒸气黏性对非接触式指尖密封动压靴热变形的影响分析,动力工程学报,2017,8:622-628 [38]蔡振威,王炜哲(*),胡怡丰 ,刘应征,优化启动温升率对汽轮机中压薄壁外缸疲劳行为的影响,第十八届全国疲劳与断裂学术会议, 2016 [37]赵乃龙,王炜哲(*),刘应征,现场服役机组蒸汽温度波动对汽轮机转子蠕变-疲劳损伤的影响,第十八届全国疲劳与断裂学术会议, 2016 [36]蒋季伸,王炜哲(*),冷却孔附近热障涂层应力分析,第十一届全国表面工程大会暨第八届全国青年表面工程学术会议,10/22-25,成都,中国 [35]蒋季伸,王炜哲(*),刘应征,冷却孔附近热障涂层的应力及失效机理分析,2016中国工程热物理年会,11/9-12,广州,中国 [34]赵乃龙,吴穹,王炜哲(*),张军辉. 超超临界汽轮机高压转子低周疲劳及损伤分析, 上海交通大学学报,2015, 49(5): 590-594. [33]吴穹,王炜哲(*),张军辉,胡怡丰,高清辉. 超超临界汽轮机中压转子高温蠕变强度分析,动力工程学报,2015, 35(1):25-29. [32]喻超,王炜哲(*),陈钢,核电汽轮机低压焊接转子热处理残余应力的数值分析,动力工程学报,2014,34(01) :19-24,31 [31]喻 超,王炜哲(*),张军辉,刘应征,超超临界机组高压内缸蠕变强度分析,动力工程学报,2014,34(05):365-370 [30]毛剑峰,张军辉,王炜哲(*),陈汉平,汽轮机进汽阀U型密封高温强度与密封性能分析. 中国电机工程学报,2013,33(20): 104-110,18. [29]毛剑峰,王炜哲(*),张军辉,超超临界汽缸高温强度及多轴蠕变分析,力学季刊,2013,34(3):437-443. [28]焦广臣,王炜哲(*),蒋蒲宁,刘应征,核电汽轮机转子结构应力腐蚀裂纹扩展研究,汽轮机技术,2013,55(2):113-114. [27]谈尚炯,陈钢,焦广臣,王炜哲(*),陈汉平,喷丸对红套转子应力腐蚀失效概率的影响,热力透平,2013,42(03):181-185. [26]谈尚炯,王炜哲(*),陈汉平,刘应征,汽轮机复杂套装转子内部应力分析,动力工程学报,2013, 33(08):581-585. [25]毛剑峰,王炜哲(*),刘应征,陈汉平,汽轮机螺栓松弛对汽缸蠕变强度的影响,动力工程,2013,33(2):107-111. [24]陈钢, 蒋浦宁, 王炜哲,焦广臣, 汽轮机部件应力腐蚀寿命评估方法研究,热力透平, 2012, (03): 179-182,219 [23]焦广臣,王炜哲,马春雷,孙乃杰,基于断裂力学的核电结构完整性评估的数值工具,第16届全国疲劳与断裂学术会议,2012. [22]毛剑峰,王炜哲(*),张军辉,刘应征,高参数中压内缸高温强度及多轴蠕变分析,第16届全国疲劳与断裂学术会议,2012 [21]戴伟,王炜哲,刘应征,径向间隙对刷式密封泄漏特性影响的数值分析.动力工程学报,2011,7(31):507-512 [20]刘华锋,王炜哲(*),蒋浦宁,刘应征, 陈汉平,超超临界汽轮机转子蠕变对低周疲劳应变的影响,动力工程,2010,30(09): 715-719 [19]王炜哲,蒋浦宁,张军辉,刘应征,陈汉平,非比例拉扭组合循环加载下扭转载荷幅对构件应力影响的数值分析,中国动力工程学会透平专业委员会2010年学术研讨会,2010.10 [18]焦广臣, 王炜哲, 蒋浦宁, 刘应征, 陈汉平, 当地应力状况对应力腐蚀裂纹起始寿命的影响分析, 第十五届全国疲劳与断裂学术会议,2010.11 [17]王炜哲,焦广臣,张军辉,刘应征,陈汉平,非比例加载下扭转载荷频率对构件力学行为影响的数值分析,第十五届全国疲劳与断裂学术会议,2010.11 [16]邬文睿,王炜哲(*),蒋浦宁,刘应征,陈汉平,660MW超超临界汽轮机高压转子的高温蠕变强度分析,动力工程,2009, 29(2):99-103 [15]王青,王炜哲,万大伟,费智敏,刘应征,曹兆敏,三例人体颈动脉分叉管血液动力学的数值对比分析, 水动力学研究与进展:A辑,2009 ,24(3):313-318. [14]林文进,王炜哲,刘应征,陈汉平,风室试验中轴对称排气引射-混合器的引射特性,上海交通大学学报,2009,43(05): 759-762,771 [13]邬文睿,王炜哲(*),蒋浦宁,刘应征,陈汉平,660MW超超临界汽轮机高压转子高周疲劳强度分析, 中国动力工程学会第四届青年学术年会,北京,2009.01. [12]邬文睿,王炜哲(*),刘华锋,刘应征,660MW超超临界汽轮机高压转子蠕变疲劳耦合分析,2009先进电站用耐热钢与合金国际研讨会,2009.10-21-24,上海. [11]焦广臣,王炜哲(*),刘华锋,具有不同裂纹尺寸的三维裂纹试件裂纹端的高温蠕变研究,2009先进电站用耐热钢与合金国际研讨会,2009.10-21-24,上海. [10]邬文睿,王炜哲(*),刘华锋,刘应征,660MW超超临界汽轮机高压转子低周疲劳强度分析,中国力学学会2009学术大会,2009.08 [9]王炜哲,邬文睿,刘应征,陈汉平,数值分析交错齿密封结构对密封性能的影响,中国工程热物理学会2008年流体机械学术会议,2008 [8]邬文睿, 万津津, 王炜哲, 刘应征, 600MW亚临界机组主调阀蒸汽流动损失数值分析, 水动力学研究与进展A辑, 2008, (05). [7]王炜哲, 刘应征, 陈汉平等.汽轮机轴封-转子系统动力学特性的数值分析,动力工程,2007,27(6):845-849 . [6]王炜哲, 刘应征, 陈汉平等. 迷宫密封—转子系统动力学特性的试验测量和数值模拟,机械工程学报,2007,43(3): 22-27. [5]王炜哲, 刘应征, 陈汉平等. 迷宫轴封气流周向剪切力对转子动态特性系数的影响,动力工程,2007,27(5): 717-720 [4]王炜哲,施鎏鎏,刘应征等. 1000MW超临界汽轮机主调阀内流动和噪声计算分析,动力工程,2007,27(3): 401-405 [3]韦康, 叶春, 葛诵,王炜哲, 刘应征, 忻建华,气隙激振力对转子临界转速的影响,动力工程学报, 2006, (01): 6-9. [2]陈献春,杨俊, 周宇阳, 王炜哲, 陈广兵, 董军,基于DCS一体化的球磨机制粉系统仿真建模,热力发电,2005, (01): 40-42,60. [1]王炜哲,周宇阳,陈汉平,基于图形组态的可压缩流体网络仿真模型,汽轮机技术,2003,6:358-360

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12)热能动力工程,编委 11)The 15th Asia-Pacific Conference on Fracture and Strength, Scientific Committee,Session Chair, Invited Speaker 10)2018-,中国机械工程学会材料分会青年委员会,委员 9)ASME PVP Committee Member 8)ASME PVP Conference Session Organizer 7)TURBO EXPO 2018(ASME Turbo Expo): Session Organizer, Session Chair 6)TURBO EXPO 2017(ASME Turbo Expo, Power & Energy and ICOPE): Session Organizer, Session Chair 5)ASME TURBO EXPO 2016:Session Co-Chair (COMM 27 Structures & Dynamics: Emerging Methods in Design & Engineering: Optimization & New Methods Development) 4)2016 NexTurbine 第五届下一代燃气轮机峰会,分会场主席 3)2016-, 中国造船工程学会轮机学术委员会辅机分会,委员 2)2012-, 国际期刊《Recent Patents on Mechanical Engineering》编委 1)山东省“能源计量与节能减排”专家论坛大会上作为特邀专家

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