温建锋

温建锋  Jian-Feng Wen

Email:jfwen@ecust.edu.cn

职  位:教授、博导


每年招收博士研究生1-2名,硕士研究生3-5名;

随时欢迎博士后合作申请。

专业领域:机械工程、固体力学、能源动力等。

欢迎邮件或来电。



个人简介

工作经历:

2019年09月至今,华东理工大学,副教授、教授

2014年07月-2019年8月,华东理工大学,讲师

2015年11月-2017年12月,Texas A&M University,博士后

教育经历:

2010年09月-2014年06月,华东理工大学,动力工程及工程热物理,博士

2011年09月-2012年09月,Texas A&M University,机械工程,公派联合培养

2003年09月-2010年06月,南京工业大学,机械工程及自动化,学士;化工过程机械,硕士


一直致力于高温结构损伤与断裂科学研究。担任中国机械工程学会压力容器分会理事、材料分会理事、高温材料及强度专委会副主任、中国材料学会疲劳分会理事、中国航天三网结构、强度和可靠性专委会委员、中国结构完整性联盟秘书长、J Mech Behav Mater副主编、Materials编委、Int J Struct Integr编委等入选国家优青、东方学者、闽江学者、浦江人才、扬帆计划等。主持国家自然科学基金、航空发动机和燃气轮机重大专项课题等科研项目20余项。获美国机械工程师学会PVP论文竞赛博士组冠军(中国籍迄今唯一)、中国机械工程学会压力容器分会优博卓越奖(首届唯一)、中国机械工程学会年度优秀论文奖等,指导学生获中国大学生机械工程创新创意大赛一等奖、“挑战杯”上海市大学生课外学术科技作品竞赛特等奖等。已在Nat Mater、J Mech Phys Solids、Acta Materialia等重要期刊发表论文50余篇,申请/授权专利30余项,获软件著作权10余项。


Jian-Feng Wen is a full professor in Mechanical Engineering at East China University of Science and Technology (ECUST). He received his Ph.D. in Mechanical Engineering at ECUST in 2014 and worked as a postdoctoral research associate in Material Science Engineering at Texas A&M University during 2015-2017. His research has been focused on damage and fracture of high temperature structures. He serves as a committee member of Pressure Vessel Institution (Chinese Mechanical Engineering Society, CMES), Materials Institution (CMES), Fatigue Institution (Chinese Materials Research Society, C-MRS), the secretary general of China Structural Integrity Consortium (CSIC), Associate Editor of J Mech Behav Mater, and Editorial Board Memebers of Materials and Int J Struct Integr. He is currently a PI of 20+ research projects funded by National Natural Science Foundation of China (NSFC), Ministry of Industry and Information Technology (MIIT), Shanghai Municipal Science and Technology Commission, etc. He has published more than 50 peer-reviewed papers, including those in top journals such as Nat Mater, J Mech Phys Solids and Acta Materialia. Also, he has given 20 keynote/invited lectures at top conferences and universities and obtained ownership of 30 patents and 10 software copyrights. Hitherto, he has been the only Chinese winner in the ASME PVP paper competition (Ph.D. category) and the first winner of CMES-CPVI best Ph.D. thesis. In 2020, he was awarded the CMES Annual Outstanding Paper Award. Based on the above achievements, he has been selected as the NSFC Excellent Young Scholar, as well as the Shanghai Eastern Scholar and Fujian Minjiang Scholar. 


学术兼职

  1. 中国机械工程学会材料分会理事、高温材料及强度专委会副主任兼秘书长、青年工作委员会委员

  2. 中国机械工程学会压力容器分会理事

  3. 中国材料研究学会疲劳分会理事

  4. 中国航天三网结构、强度和可靠性专委会委员

  5. 中国结构完整性联盟秘书长

  6. 金属材料与焊接高端技术创新联盟理事

  7. 中国重燃-华理燃气轮机结构完整性协同创新中心副主任

  8. 科技部第六次国家技术预测工作专家

  9. 南京工业大学兼职教授

  10. Journal of the Mechanical Behavior of Materials 副主编

  11. Materials 编委

  12. International Journal of Structural Integrity 编委

  13. 金属学报 青年编委

  14. 机械强度 青年编委

  15. 工程设计学报 青年编委

  16. 机械工程学报Science China Technological SciencesFatigue & Fracture of Engineering Materials & StructuresInternational Journal of Pressure Vessels and Piping等期刊客座编辑

  17. 第十届中日双边高温材料强度学术会议学术委员会委员, 鹿儿岛, 日本, 2019

  18. First International Symposium on Risk Analysis and Safety of Complex Structures and Components 学术委员会委员, Porto, Portugal, 2019

  19. ISSI2018 & ISSI2020  最佳海报评审委员会委员

  20. ISSI2021 & ISSI2022 & ISSI2023-ESIA17 & ISSI2024 秘书长

  21. 第十四届全国高温材料及强度学术会议学术委员会委员, 珠海, 中国, 2022

  22. 第二十一届全国疲劳与断裂学术会议学术委员会委员, 青岛, 中国, 2022

  23. 第十一届中日双边高温材料强度学术会议学术委员会委员, 成都, 中国, 2023

  24. 第二十二届全国疲劳与断裂学术会议学术委员会委员, 成都, 中国, 2024


期刊审稿

  1. International Journal of Fatigue

  2. Engineering Fracture Mechanics

  3. International Journal of Pressure Vessels and Piping

  4. Fatigue & Fracture of Engineering Materials & Structures

  5. European Journal of Mechanics - A/Solids

  6. Theoretical and Applied Frature Mechanics

  7. Scientific Reports

  8. Materials and Design

  9. Science China Technological Sciences

  10. Acta Metallurgica Sinica

  11. Chinese Journal of Mechanical Engineering

  12. Journal of Engineering for Gas Turbines and Power

  13. Composite Structures

  14. High Temperature Materials and Processes

  15. Mechanics of Time-Dependent Materials

  16. Journal of the Brazilian Society of Mechanical Sciences and Engineering

  17. Advances in Mechanical Engineering

  18. Advances in Engineering Software

  19. Materials

  20. Metals

  21. Journal of Composite Materials

  22. Science and Engineering of Composite Materials

  23. Journal of Micromechanics and Molecular Physics

  24. Mechanics of Materials

  25. Mathematics and Mechanics of Solids

  26. 金属学报

  27. 机械工程学报

  28. 压力容器

  29. 固体力学学报

  30. 机械工程材料

  31. 力学季刊 


学术主页

Researchgate: https://www.researchgate.net/profile/Jian_Feng_Wen

Google Scholar: https://scholar.google.com/citations?user=G8n1WZ8AAAAJ&hl=en


联系方式

地址:上海市梅陇路130号华东理工大学402信箱

邮编:200237

Email:jfwen@ecust.edu.cn

 

研究方向

  1. 极端环境下的损伤断裂机理

  2. 多轴应力状态试验方法

  3. 机械结构强度先进数值仿真技术

  4. 基于数字孪生的寿命预测方法等


承担科研项目

  1. 高温结构损伤与断裂, 国家自然科学基金优秀青年科学基金项目 (No. 52122506, 主持, 在研)

  2. 强震载荷下核电高温管道超低周疲劳破坏机理与寿命预测方法, 国家自然科学基金面上项目 (No. 52475156, 主持, 在研)

  3. 基于细观损伤理论的高温构件蠕变疲劳寿命预测方法, 国家自然科学基金面上项目 (No. 51875203, 主持, 已结题 (A+))

  4. 基于多轴延性断裂模型的多裂纹干涉与合并研究, 国家自然科学基金青年科学基金项目 (No. 51505149, 主持, 已结题)

  5. 典型构件材料XXXXX试验方法和数据库研究,航空发动机和燃气轮机重大专项 (课题)(No. J2019-IV-0010-00XX, 主持, 在研

  6. 严苛环境下典型承压的损伤机理及寿命预测方法, 国家重点研发计划(任务) (No. 2018YFC0808801, 主持, 已结题)

  7. 先进汽轮机关键部件焊接接头蠕变寿命评价技术, 中国博士后科学基金项目 (No. 2015M581543, 主持, 已结题)

  8. 燃气轮机部件测试与设计, 中广核苏州热工研究院合作项目 (主持, 已结题)

  9. 先进动力装备承压结构热应力敏感度分析, Siemens合作项目 (主持, 已结题)

  10. 上海高校特聘教授岗位计划, 2020年 (主持, 在研)

  11. 上海市浦江人才计划 (A类), 2018年 (主持, 已结题)

  12. 上海市青年科技英才扬帆计划, 2015年 (主持, 已结题)

获奖成果

  1. 第九届中国国际“互联网+大学生创新创业大赛上海赛区优秀指导教师 (2023)

  2. 第十七届“挑战杯”上海市大学生课外学术科技作品竞赛优秀指导教师(2021)

  3. 中国机械工程学会年度优秀论文 (2020)

  4. 中国有色金属优秀科技论文 (2020)

  5. 第11届全国过程装备实践与创新大赛优秀指导教师 (2020)

  6. 华东理工大学青年五四奖章 (2019)

  7. 首届中国机械工程学会压力容器分会优秀博士学位论文卓越奖 (2017, 每四年评选一次, 全国共一位)

  8. Materials & Design (SCI期刊, IF: 7.991) 杰出审稿贡献奖 (2015)

  9. 美国机械工程师学会ASME PVP论文竞赛博士组冠军 (2013, 每年评选一次, 全球共一位)

  10. 上海交通大学'智能制造·智造中国'学术论坛优秀报告奖 (2013)


指导学生获奖

  1. 第九届中国国际“互联网+大学生创新创业大赛上海赛区银奖 (2023)

  2. 第十七届“挑战杯”全国大学生课外学术科技作品竞赛三等奖(2022)

  3. ISSI2021 Best Student Paper Award (2021)

  4. 中国压力容器优秀青年论文奖(2021)

  5. 第十七届“挑战杯”上海市大学生课外学术科技作品竞赛特等奖 (2021)

  6. 第十四届“奋进杯”大学生课外学术科技作品竞赛特等奖 (2021)

  7. 万年青创新奖学金特等奖 (2021)

  8. 中国大学生机械工程创新创意大赛一等奖 (2020)


研究生毕业去向

  • 2016届:华陆工程;上海辉策

  • 2017届:因赴美工作,未指导研究生

  • 2018届:因赴美工作,未指导研究生

  • 2019届:日本立命馆大学(攻博)

  • 2020届:泛亚汽车

  • 2021届:上海联影医疗;海信集团;上汽集团

  • 2022届:上海捷氢;华东理工大学(攻博)

  • 2023届:蔚来汽车;固德威;无锡先导智能装备

  • 2024届:中国机械科学总院;中芯国际;盛美半导体;上海维科;华东理工大学(攻博)

代表性著作

期刊论文 

  1. Kang-Kang Wang, Jian-Feng Wen*, Run-Zi Wang, Ting Ye, Ji Wang, Jian-Ping Tan, Hao-Feng Chen, Xian-Cheng Zhang, Shan-Tung Tu*. Cyclic deformation behaviors and damage mechanisms in P92 steel under creep-fatigue loading: Effects of hold condition and oxidation. International Journal of Fatigue, 2024, 187: 108448.

  2. Nai-Jian Dong, Kang-Kang Wang, Jian-Feng Wen*, Bo Chen*, Shan-Tung Tu. Effects of post-processing and loading orientation on high-cycle fatigue of selective laser melted Ti-6Al-4V. International Journal of Fatigue 2024, 187: 108433.

  3. Yujie Pan, Huayan Hu, Kangkang Wang, Naijian Dong, Rui Qiu, Jian-Feng Wen*, Miao Song*, Shan-Tung Tu. Creep behavior and fracture mechanism of an additively manufactured 316L stainless steel with extraordinary creep resistance. Mechanics of Materials 2024, 196: 105053.

  4. Jin Shi, Zi-Jian Guo, Jia-Xing Wang, Xin Liu, Yun Zhou, Jian-Qun Tang, Jian-Feng Wen*, Shan-Tung Tu*. A novel small specimen testing method based on a pneumatic bulging test: Measurement of tensile properties at high temperatures. International Journal of Pressure Vessels and Piping, 2024, 209: 105210.

  5. Jinghuan Chang, Jian-Feng Wen*, Rui Cao*, Yingjie Yan, Ran Sui, Shan-Tung Tu. Effect of lapped sequence on corrosion behavior and mechanism of pure titanium/galvanized steel joint using cold metal transfer joining technology. International Journal of Pressure Vessels and Piping, 2024, 209: 105203.

  6. Jiayuan Gu, Xiaowei Wang*, Yuntao Gao, Yefeng Chen, Zhen Zhang, Jianfeng Wen, Jianming Gong. Effect of surface modification on the high temperature low cycle fatigue performance of LPBF 316L austenitic steel. Engineering Fracture Mechanics, 2024, 302: 110094.

  7. Zitong Kang, Xiaowei Wang*, Zhiwei Wang, Dewen Zhou, Tianyu Zhang, Jianfeng Wen, Chengcheng Zhang, Jianqun Tang, Jianming Gong*. Cyclic response and residual life prediction of Inconel 718 superalloy after overloading under hybrid stress-strain controlled creep-fatigue loading. Engineering Failure Analysis, 2024,162: 108427.

  8. Bingkun Bao#, Qingmei Zeng#, Kai Li#, Jianfeng Wen#, Yiqing Zhang, Yongjun Zheng, Renjie Zhou, Chutong Shi, Ting Chen, Chaonan Xiao, Baihang Chen, Tao Wang, Kang Yu, Yuan Sun, Qiuning Lin*, Yong He, Shantung Tu, Linyong Zhu*. Rapid fabrication of physically robust hydrogels. Nature Materials, 2023, 22: 1253-1260.

  9. Yi-Fan Yang, Hua-Yan Hu, Lin Min, Qian-Tao Sun, Miao Song, Ming-Liang Zhu, Jian-Feng Wen*, Shan-Tung Tu*. Failure mechanism and life correlation of Inconel 718 in high and very high cycle fatigue regimes. International Journal of Fatigue, 2023, 175: 107764.

  10. Bin-Han Sun#, Xi-Zhen Dong#, Jian-Feng Wen#, Xian-Cheng Zhang*, Shan-Tung Tu*. Microstructure design strategies to mitigate hydrogen embrittlement in metallic materials. Fatigue & Fracture of Engineering Materials & Structures, 2023, 46: 3060-3076.

  11. Kang-Kang Wang, Jian-Feng Wen*, Xian-Xi Xia, Run-Zi Wang, Guo-Dong Zhang, Xian-Cheng Zhang, Shan-Tung Tu*. High temperature creep-fatigue-oxidation behaviors of P92 steel: Evaluation of life prediction models. Fatigue & Fracture of Engineering Materials & Structures, 2023, 46: 682-698.

  12. 齐磊, 费嘉文, 温建锋*, 涂善东. 拉伸载荷下穿透双裂纹干涉行为与合并准则研究. 机械工程学报, 2023, 59: 113-126.

  13. 占勇, 焦广臣, 温建锋*. 反应堆压力容器接管区角裂纹应力强度因子影响系数法适用性分析. 压力容器, 2023, 40(10): 58-66.

  14. 焦广臣, 占勇, 温建锋*. 考虑焊缝和母材不同材料特性的焊接平板疲劳裂纹扩展行为模拟. 焊接学报, 2023, 44(11): 52-58.

  15. Run-Zi Wang, Xian-Cheng Zhang*, Hang-Hang Gu, Kai-Shang Li, Jian-Feng Wen, Hideo Miura,Ken Suzuki, Shan-Tung Tu. Oxidation-involved life prediction and damage assessment under generalized creep-fatigue loading conditions based on engineering damage mechanics. Journal of Materials Research and Technology, 2023, 23: 114-130.

  16. Tianyu Zhang, Xiaowei Wang, Chunan Zhang, Yong Jiang, Jianfeng Wen, Xiancheng Zhang, Jianming Gong.Revealing the influences of strain amplitudes on hybrid stress-strain controlled creep-fatigue interaction responses for 9% Cr steel. Engineering Fracture Mechanics, 2023, 289: 109415.

  17. Chunan Zhang, Tianyu Zhang, Xiaowei Wang*, Jianfeng Wen, Yong Jiang, Jianming Gong*, Shantung Tu. Assessment of prior fatigue damage and a new approach to predict remanent creep rupture of P92 steel. International Journal of Pressure Vessels and Piping, 2023, 201: 104873.

  18. Dong-Kai Chang, Qiong-Qi Wang*, Hui Chen, Xian-Cheng Zhang, Jian-Feng Wen*, Shan-Tung Tu. Effects of Defect Size and Location on High Cycle Fatigue Life of a Maraging Stainless Steel at Ambient and Cryogenic Temperatures. International Journal of Fatigue, 2022, 161: 106906.

  19. 陈思吟, 赵逸彬, 鲍晨龙, 孙钱涛, 马也*, 温建锋. 地铁隧道清洁市场需求及发展前景分析. 中国市场, 2022, 22: 128-132.

  20. Tao Wang, Jian-Feng Wen*, Peng-Peng Liao, Xian-Cheng Zhang, Yun-Jae Kim, Shan-Tung Tu*. A study of ultra-low cycle fatigue failure based on a fracture strain energy model. International Journal of Fatigue, 2021, 146: 106149.

  21. Xue-Wei Zhang, Jian-Feng Wen*, Tao Wang, Xian-Cheng Zhang, Shan-Tung Tu*. Ductile failure of flat plates containing two through-wall cracks: Experimental investigation and numerical modeling. International Journal of Pressure Vessels and Piping, 2021, 191: 104377.

  22. Xin Jin, Run-Zi Wang, Yang Shu, Jia-Wen Fei, Jian-Feng Wen*, Shan-Tung Tu. Creep-fatigue crack initiation simulation of a modified 12% Cr steel based on grain boundary cavitation and plastic slip accumulation. Materials, 2021, 14(21): 6565.

  23. 王康康, 王小威, 温建锋*, 张显程, 巩建鸣, 涂善东. 蠕变断裂:从物理失效机制到结构寿命预测. 机械工程学报, 2021, 57(16): 132-152.

  24. 齐磊, 张学伟, 温建锋*. 基于延性耗竭模型的边缘型穿透多裂纹干涉与合并分析. 压力容器, 2021, 38(12): 44-52. 

  25. Kang Yuan*, Jian-Feng Wen. Compression behavior of ceramic powders by inductive plasma sphero process. Ceramics International, 2021, 47(20): 28566-28574.

  26. 周小彬, 邹敬平, 原慷*, 温建锋, 席文君, 翟墨轩. 选区激光熔化打印骨架结构组织研究. 有色金属工程, 2021, 11(6): 5-11.

  27. Tao Wang, Jian-Feng Wen*, Yun-Jae Kim, Shan-Tung Tu. Ductile tearing analyses of cracked TP304 pipes using the multiaxial fracture strain energy model and the Gurson-Tvergaard-Needleman model. Fatigue & Fracture of Engineering Materials & Structures, 2020, 43: 2402-2415.

  28. 胡华彦, 温建锋*, 吴蔚峰, 谈建平, 涂善东. 高温蠕变条件下表面裂纹扩展行为分析. 机械工程学报, 2020, 56: 40-50.

  29. Xue-Wei Zhang, Jian-Feng Wen*, Xian-Cheng Zhang, Xiao-Gang Wang, Shan-Tung Tu*. Effects of the stress state on plastic deformation and ductile failure: Experiment and numerical simulation using a newly designed tension-shear specimen. Fatigue & Fracture of Engineering Materials & Structures, 2019, 42: 2079-2092. (Among the top 10% most downloaded papers)

  30. Run-Zi Wang, Su-Juan Guo*, Haofeng Chen, Jian-Feng Wen, Xian-Cheng Zhang*, Shan-Tung Tu. Multi-axial creep-fatigue life prediction considering history-dependent damage evolution: A new numerical procedure and experimental validation. Journal of the Mechanics and Physics of Solids, 2019, 131: 313-336.

  31. 许乐, 温建锋*, 涂善东. P92钢焊接接头蠕变损伤与裂纹扩展数值模拟. 焊接学报, 2019, 40(8): 80-88.

  32. 温建锋, 轩福贞, 涂善东*. 高温构件蠕变损伤与裂纹扩展预测研究新进展. 压力容器, 2019, 36(2): 38-50.

  33. Jian-Feng Wen, Yu Liu, Ankit Srivastava, Amine Benzerga, Shan-Tung Tu, Alan Needleman*. Environmentally enhanced creep crack growth by grain boundary cavitation under cyclic loading. Acta Materialia, 2018, 153: 136-146.

  34. Jian-Feng Wen, Ankit Srivastava, Amine Benzerga, Shan-Tung Tu, Alan Needleman*. Creep crack growth by grain boundary cavitation under monotonic and cyclic loading. Journal of the Mechanics and Physics of Solids, 2017, 108: 68-84.

  35. Jian-Feng Wen, Xin-Lin Gao*, Fu-Zhen Xuan, Shan-Tung Tu. Autofrettage and shakedown analyses of an internally pressurized thick-walled spherical shell based on two strain gradient plasticity solutions. Acta Mechanica, 2017, 228: 89-115.

  36. K. Yuan*, Y. Yu, J.-F. Wen. A study on the thermal cyclic behavior of thermal barrier coatings with different MCrAlY roughness. Vacuum, 2017, 137: 72-80.

  37. Jian-Feng Wen, Shan-Tung Tu*, Fu-Zhen Xuan, Xue-Wei Zhang, Xin-Lin Gao. Effects of stress level and stress state on creep ductility: mechanism, modelling and test. Journal of Materials Science & Technology, 2016, 32: 695-794.

  38. Jian-Feng Wen, Yong Zhan, Shan-Tung Tu*, Fu-Zhen Xuan. A combination rule for multiple surface cracks based on fatigue crack growth life. AIMS Materials Science, 2016, 3: 1649-1664.

  39. M. Song*, J.-F. Wen, Z. Jiao, G.S. Was, Elastic strain energy control of the precipitate free zone around primary carbides in nickel base alloy 725. Acta Materialia, 2016, 120: 138-149.

  40. 占勇, 温建锋, 涂善东*, 轩福贞. 基于疲劳寿命的共面多裂纹合并准则研究. 压力容器, 2016, 33: 1-9.

  41. Xin-Lin Gao*, Jian-Feng Wen, Fu-Zhen Xuan, Shan-Tung Tu. Autofrettage and shakedown analyses of an internally pressurized thick-walled cylinder based on strain gradient plasticity solutions. Journal of Applied Mechanics-Transactions of the ASME, 2015, 82(4): 041010-1-041010-12.

  42. Yu-Xuan Li, Jian-Feng Wen*, Wei Wang, Wan-Li Zhong*, Jian Chen. High-temperature defect assessment for a P91 reheat elbow using FAD and TDFAD methods. Procedia Engineering, 2015, 130: 1371-1384.

  43. Su-Juan Guo*, Jie Ding, Shang-Lin Zhang, Jian-Feng Wen, Fu-Zhen Xuan. Study on the local mechanical behavior and forming safety of the clad steel plate used in the accumulator tank of nuclear plant. Procedia Engineering, 2015, 130: 1524-1534.

  44. 宫建国, 温建锋, 轩福贞*. 蠕变-疲劳载荷下高温结构的缺口效应研究进展. 机械工程学报, 2015, 51: 24-40.

  45. Jian-Feng Wen, Shan-Tung Tu*. A multiaxial creep-damage model for creep crack growth considering cavity growth and microcrack interaction. Engineering Fracture Mechanics, 2014, 123: 197-210.

  46. Jian-Feng Wen, Shan-Tung Tu*, Xin-Lin Gao, JN Reddy. New model for creep damage analysis and its application to creep crack growth simulations. Materials Science and Technology, 2014, 30: 32-37.

  47. Yu-Cai Zhang, Wen-Chun Jiang, Shan-Tung Tu*, Jian-Feng Wen, Wanchuck Woo. Using short-time creep relaxation effect to decrease the residual stress in the bonded compliant seal of planar solid oxide fuel cell - A finite element simulation. Journal of Power Sources, 2014, 255: 108-115.

  48. Yu-Cai Zhang, Wen-Chun Jiang, Shan-Tung Tu*, Jian-Feng Wen. Simulation of creep and damage in the bonded compliant seal of planar solid oxide fuel cell. International Journal of Hydrogen Energy, 2014, 39: 17941-17951.

  49. Jian-Feng Wen, Shan-Tung Tu*, Xin-Lin Gao, JN Reddy. Simulations of creep crack growth in 316 stainless steel using a novel creep-damage model. Engineering Fracture Mechanics, 2013, 98: 169-184.

  50. 温建锋, 巩建鸣, 涂善东*. 内压圆筒中表面裂纹蠕变扩展的数值分析. 机械强度, 2012, 34: 118-125.

  51. Jian-Feng Wen, Shan-Tung Tu*, Jian-Ming Gong, Wei Sun. Creep fracture mechanics parameters for internal axial surface cracks in pressurized cylinders and creep crack growth analysis. International Journal of Pressure Vessels and Piping, 2011, 88: 452-464.

 

专著与专辑

  1. Jian-Feng Wen, Shan-Tung Tu (Guest Editor). Special Issue: Structural Integrity in the Context of Carbon Neutrality, Fatigue & Fracture of Engineering Materials & Structures (Volume 47). USA: John Wiley & Sons Ltd, 2023.

  2. Shan-Tung Tu, Jian-Feng Wen (Guest Editor). Special Topic: Structural Integrity, Science China Technological Sciences (Volume 64). Switzerland: Springer Nature, 2021.

  3. 张显程, 陈刚, 朱顺鹏, 温建锋 (客座编辑). 先进设计制造技术前沿: 重要装备的可靠性保障, 机械工程学报 (第57卷). 北京: 机械工业出版社, 2021. 

  4. 温建锋, 涂善东. 10000个科学难题 (制造科学卷: 核废料存储容器的超长寿命设计), 北京: 科学出版社, 2018.


会议论文或报告

  1. 温建锋. 基于细观损伤理论的高温构件蠕变疲劳损伤寿命预测方法. 第二十届国际制造会议. 重庆, 中国: 11月23日-26日, 2023. (邀请报告)

  2. 温建锋. 镍基合金长寿命疲劳失效机理和寿命预测. 第三届损伤与断裂力学及其工程应用研讨会. 合肥, 中国: 11月3日-5日, 2023. (邀请报告)

  3. 温建锋. 表面完整性影响下的镍基合金超高周疲劳裂纹萌生机理. JME学院第三届青年科学家论坛. 哈尔滨, 中国: 8月18-日-20日, 2023. (邀请报告)

  4. Jian-Feng Wen*, Yi-Fan Yang, Miao Song, Shan-Tung Tu*. High and very high cycle fatigue crack initiation mechanisms in Inconel 718 considering the effects of surface roughness and residual stress. The 17th International Conference on Engineering Structural Integrity Assessment (ESIA17) & 2023 International Symposium on Structural Integrity (ISSI2023), Manchester, UK: May 23-25, 2023. (Keynote Lecture)

  5. 舒阳, 费嘉文, 杨凯, 温建锋*, 涂善东. 交变弯曲载荷下表面裂纹蠕变疲劳扩展预测. 第十四届全国高温材料及强度学术会议. 珠海, 中国: 11月17日-20日, 2022.

  6. Yifan Yang, Jian-Feng Wen*, Shan-Tung Tu. Failure mechanism and life prediction of GH4169 in a very high cycle fatigue regime. 2022 International Symposium on Structural Integrity, Changsha, China: October 14-17, 2022.

  7. 温建锋*. 多裂纹结构延性断裂分析, 第九届材料与结构强度青年工作论坛暨中国机械工程学会材料分会青年工作年会. 成都, 中国: 8月17日-19日, 2022. (邀请报告)

  8. Kang-Kang Wang, Jian-Feng Wen*, Shan-Tung Tu*. A physics-based approach for creep-fatigue-oxidation life prediction of P92. 2021 International Symposium on Structural Integrity, Hangzhou, China: October 8-11, 2021.

  9. 温建锋*, 王涛, 涂善东. 多轴应力影响下的超低周疲劳试验与损伤分析. 第六期全国疲劳学术研讨会, 天津, 中国: 5月28日-30日, 2021. (大会报告) 

  10. Tao Wang, Jian-Feng Wen*, Shan-Tung Tu. A Fracture Strain Energy Model for Ultra-Low Cycle Fatigue Failure. 2020 International Symposium on Structural Integrity, Suzhou, China: October 22-24, 2020. (Keynote Lecture)

  11. Jian-Feng Wen*, Xue-Wei Zhang, Shan-Tung Tu. A Simple Fracture Strain Model and Its Application to Simulate the Ductile Failure of Plates with Multiple Cracks. XV International Conference on Computational Plasticity, Barcelona, Spain: September 3-5, 2019. (Invited Lecture)

  12. Jian-Feng Wen*, Xue-Wei Zhang, Fu-Zhen Xuan, Shan-Tung Tu. Numerical Analysis of the Interaction Behaviors of Multiple Through-thickness Cracks using a Modified Fracture Strain Model. 2019 ASME Pressure Vessels & Piping Conference, San Antonio, USA: July 14-19, 2019.

  13. Jian-Feng Wen*, Qin-Da Zeng, Wei-Feng Wu, Jian-Ping Tan, Shan-Tung Tu. Experiment and Numerical Analysis of Creep Crack Growth of Surface Cracks in P92 steel at 650°C. The 15th International Conference on Engineering Structural Integrity Assessment (ESIA15) & 2019 International Symposium on Structural Integrity (ISSI‐2019), Cambridge, UK: May 8-9, 2019.

  14. Xue-Wei Zhang, Jian-Feng Wen*, Xian-Cheng Zhang, Xiao-Gang Wang, Shan-Tung Tu. A Newly Designed Tension-shear Specimen and Its Application to Ductile Failure Simulation. The 15th International Conference on Engineering Structural Integrity Assessment (ESIA15) & 2019 International Symposium on Structural Integrity (ISSI‐2019), Cambridge, UK: May 8-9, 2019. (Poster)

  15. Jian-Feng Wen*, Yang Gao, Qi Li, Rongyao Wu, Xue-Wei Zhang. Laser direct formation of strain sensors on polydimethylsiloxane for strain measurement in ductile failure experiments. International Conference on Plasticity, Damage, and Fracture 2019, Panama City, Panama: January 3-9, 2019. (Invited Lecture)

  16. Jian-Feng Wen*, Alan Needleman, Ankit Srivastava, Amine Benzerga, Shan-Tung Tu. Analysis of Creep-fatigue Crack Growth in Oxidizing Environments at High Temperatures. The 15th Asia-Pacific Conference on Fracture and Strength, Xi'an, China: October 21-25, 2018. (Invited Lecture) 

  17. Jian-Feng Wen*, Alan Needleman, Ankit Srivastava, Amine Benzerga, Shan-Tung Tu. Creep-fatigue crack growth considering the effect of grain boundary embrittlement. International Conference on Fatigue Damage of Structural Materials XII, Hyannis, USA: September 16-21, 2018.

  18. Jian-Feng Wen*, Ankit Srivastava, Amine Benzerga, Shan-Tung Tu, Alan Needleman. Creep-fatigue-oxidation crack growth by grain boundary cavitation. 13th World Congress on Computational Mechanics, New York, USA: July 22-27, 2018.

  19. Jian-Feng Wen*, Yong Zhan, Fu-Zhen Xuan, Shan-Tung Tu. A combination rule for coplanar cracks under fatigue and creep conditions. 13th World Congress on Computational Mechanics, New York, USA: July 22-27, 2018.

  20. Jian-Feng Wen*, Ankit Srivastava, Amine Benzerga, Shan-Tung Tu, Alan Needleman. Creep-fatigue crack growth simulations based on grain boundary cavitation. The Twenty Fourth International Conference on Plasticity, Damage, and Fracture, San Juan, Puerto Rico: January 3-9, 2018. (Invited Lecture)

  21. Jian-Feng Wen*, Ankit Srivastava, Amine Benzerga, Shan-Tung Tu, Alan Needleman. Creep crack growth by grain boundary cavitation under cyclic loading. International Mechanical Engineering Congress & Exposition, Tampa, USA: November 3-9, 2017.

  22. Jian-Feng Wen, Yong Zhan, Fu-Zhen Xuan, Shan-Tung Tu*. A Rule for Assessment of interacting coplanar cracks based on creep crack growth life. 24th International Conference on Structural Mechanics in Reactor Technology, Busan, Korea: August 20-25, 2017.

  23. Jian-Feng Wen, Fu-Zhen Xuan, Shan-Tung Tu*. Numerical analyses of interaction behavior of multiple surface cracks using a modified creep-damage model and fracture mechanics approach. 2013 ASME Pressure Vessels & Piping Conference, Paris, France: July 14-18, 2013.

  24. Jian-Feng Wen, Shan-Tung Tu*. A new multi-axial creep-damage model and its application in creep crack growth predictions. 10th International Conference on Multiaxial Fatigue & Fracture, Kyoto, Japan: June 3-6, 2013.

  25. Jian-Feng Wen, Shan-Tung Tu*. Analysis of creep crack growth in surface cracked specimens: Comparisons between approaches of fracture mechanics and continuum damage mechanics. 13th International Conference on Fracture, Beijing, China: June 16-21, 2013. (Keynote Lecture)

  26. Jian-Feng Wen, Shan-Tung Tu*, Xin-Lin Gao, JN Reddy. A new model for creep damage analysis and its application to creep crack growth simulations. 9th International Conference on Creep and Fatigue at Elevated Temperatures, London, UK: September 25-27, 2012.

  27. Jian-Feng Wen, Shan-Tung Tu*, Fu-Zhen Xuan. Numerical simulation of crack propagation and coalescence in plates under creep conditions. 2010 International Symposium on Structural Integrity, Shanghai, China: October 21-24, 2010.

  28. Shan-Tung Tu*, Jian-Feng Wen, Fu-Zhen Xuan. Interaction behavior of multiple creep cracks. 18th European Conference on Fracture, Dresden, Germany: August 30-September 3, 2010.

  29. Jian-Feng Wen, Jian-Ming Gong, Shan-Tung Tu*. Numerical analysis of creep crack growth of semi-elliptical surface cracks in pressurized cylinders. 12th International Conference on Pressure Vessel Technology. Jeju, Korea: September 20-23, 2009.

 

软件著作权

  1. 温建锋, 舒阳, 王润梓, 张显程, 涂善东. 高温结构蠕变裂纹萌生与扩展预测系统, 2021, 计算机软件著作权, 登记号: 2021SR1309053.

  2. 王润梓, 谷行行, 张显程, 李凯尚, 温建锋, 涂善东. 典型材料高温蠕变疲劳腐蚀损伤和寿命预测软件, 2021, 计算机软件著作权, 登记号: 2021SR1010754.

  3. 温建锋, 王涛. 金属结构超低周疲劳寿命预测系统, 2021, 计算机软件著作权, 登记号: 2021SR0201372.

  4. 温建锋, 涂善东, 王涛. 金属结构临界断裂应变能和延性断裂预测系统,2020, 计算机软件著作权, 登记号: 2020SR0107991.

  5. 温建锋, 涂善东, 张学伟. 金属结构延性损伤和强度预测系统, 2019, 计算机软件著作权, 登记号: 2019SR0956942.

  6. 温建锋, 涂善东, 许乐. 焊接接头蠕变损伤分析与寿命预测系统, 2019, 计算机软件著作权, 登记号: 2019SR0089716.

  7. 轩福贞, 温建锋, 冯磊. 高温结构的寿命和强度设计与优化系统, 2015, 计算机软件著作权, 登记号: 2015SR024676.


授权发明专利

  1. 戴澍, 宋玥, 温建锋, 王彩玉, 黄俊杰, 石韬, 姜娟. 基于实测数据的风速湍流模型的标定方法. 发明专利, 申请日: 2023年7月26日, 授权公告日: 2024年3月1日, 专利号: ZL202310920396.0.

  2. 温建锋, 孙钱涛, 高阳, 鞠宽, 赵逸彬, 鲍晨龙, 马也, 陈思吟, 吴裕峰, 汪张桓, 王姝琪, 仇姝懿, 赵兴荣, 惠虎, 刘淼. 一种地铁隧道智能洗扫设备. 发明专利, 申请日: 2022年6月22日, 授权公告日: 2023年5月23日, 专利号: ZL202210713095.6.

  3. 涂善东, 温建锋, 张学伟. 一种反映多轴应力作用的高温蠕变断裂实验方法及装置. 发明专利, 申请日: 2021年3月10日, 授权公告日: 2022年8月12日, 专利号: ZL202110390306.2.

  4. 高阳, 轩福贞, 肖飚, 肖婷, 陈洋, 温建锋, 梅志宇, 林泽昊, 张颢出. 选择性功能化数字光处理3D打印模型的方法. 发明专利, 申请日: 2021年4月12日, 授权公告日: 2022年7月26日, 专利号: ZL202110390306.2.

  5. 高阳, 轩福贞, 缪越, 钱敏, 温建锋, 谈建平. 织物基柔性超级电容器及其制造方法. 发明专利, 申请日: 2020年3月3日, 授权公告日: 2022年5月17日, 专利号: ZL202010138837.8.

  6. 张坤, 谈建平, 温建锋, 王国珍, 涂善东. 一种多轴蠕变性能参数的测试方法. 发明专利, 申请日: 2021年7月13日, 授权公告日: 2022年5月6日. 专利号: ZL202110788236.6.

  7. 涂善东, 温建锋, 张学伟, 高阳. 一种拉伸剪切组合延性断裂实验系统及实验方法. 发明专利, 申请日: 2018年12月27日, 授权公告日: 2021年12月24日, 专利号: ZL201811611741.8.

  8. 轩福贞, 高阳, 钱敏, 温建锋, 卢桥, 李琪. 一种基于激光直写柚子皮的柔性应变传感器及其制备方法. 发明专利, 申请日: 2019年4月26日, 授权公告日: 2021年7月9日, 专利号: ZL201910343584.5.

  9. 涂善东, 温建锋, 张学伟, 高阳. 一种拉扭组合多轴断裂实验系统及实验方法. 发明专利, 申请日: 2018年10月9日, 授权公告日: 2021年1月22日, 专利号: ZL201811172716.4.

  10. 高阳, 轩福贞, 温建锋, 陈思佳, 李琪, 吴荣耀. 应变传感器及其制造方法. 发明专利, 申请日: 2018年8月21日, 授权公告日: 2020年7月3日, 专利号: ZL201810953578.7.

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