鸠摩搜书

教师名录

张泰瑞副教授硕士生导师,博士生导师
所在院系:机械制造系
办公室:机械楼441
电话:18668915630
邮箱:[email protected]
个人简介

张泰瑞 副教授,博导


地址:南京市江宁区鸠摩搜书 路2号,鸠摩搜书 九龙湖校区,机械楼441

Email: [email protected]




学习经历
工作经历



06/2021-  鸠摩搜书 鸠摩搜书 ,副教授 博导

教授课程
研究方向
力学性能的微损检测技术;结构完整性评估;延性金属材料的损伤与断裂行为;数字图像相关技术;残余应力检测
审稿期刊

International Journal of Electronics and Communications 审稿人

International Journal of Fatigue 审稿人

International Journal of Mechanical Sciences 审稿人

Theoretical and Applied Fracture Mechanics 审稿人

International Journal of Pressure Vessels and Piping 审稿人

Journal of Strain Analysis for Engineering Design 审稿人

Discover Mechanical Engineering 审稿人

Ships and Offshore Structures 审稿人

Construction and Building Materials 审稿人

Engineering Fracture Mechanics 审稿人

Results in Engineering 审稿人


学术兼职
获奖情况

ASME 2018 PVP conference 优胜奖(HONORABLE MENTION, IN THE RUDY SCAVUZZO SYMPOSIUM & 26TH ANNUAL COMPETITION)


论文著作

1.      Zhang Tairui, Shang Xiandong, Zhang Naixin, Lu Kai, Xie Mingjiang. An investigation on fracture toughness predictions from mini-sized uniaxial tensile specimens with global and local approaches. Theoretical and Applied Fracture Mechanics, 2024, 131: 104366. IF= 5.3JCR Q1

2.      Zhang Tairui, Ma Xin, Yang Bin, Jiang Wenchun, Ge Zhiqiang, Liu Xiaochao. An experimental investigation on predicting the fracture toughness distributions in ferritic-austenitic stainless steel dissimilar metal welds from spherical indentation tests, Theoretical and Applied Fracture Mechanics. 129, 2024: 104198. IF= 5.3JCR Q1

3.      Zhang Tairui, Ma Xin, Yang Bin, Pei Xianjun, Ge Zhiqiang, Jiang Wenchun. An adaptive spherical indentation test integrating targeted testing scenarios, data acquisition, and model selection for uniaxial mechanical property predictions. International Journal of Pressure Vessels and Piping, 2024, 212: 105365. IF= 3JCR Q1

4.      Xie Mingjiang, Wang Yifei, Zhao Jianli, Pei Xianjun, Zhang Tairui. Prediction of pipeline fatigue crack propagation under rockfall impact based on multilayer perceptron, Reliability Engineering and System Safety. 2024, 242: 109772. (唯一通讯)IF= 8.1JCR Q1

5.      Ma Xin, Ge Zhiqiang, Zhang Tairui, Zheng Weiwei. Experimental investigations on characterizing the uniaxial mechanical property variations along the thickness of hydrogenation reactor welded joints by spherical indentation tests. Heliyon, 2024, 10(18). (唯一通讯)IF= 3.4JCR Q1

6.      Yu Weiwei, Zhang Lu, Li Weipeng, Chen Mingya, Peng Qunjia, Han Yaolei, Liu Han, Zhang Tairui. An experimental investigation on fracture toughness predictions for carbon segregation metals using spherical indentation tests. International Journal of Pressure Vessels and Piping, 2024, 212: 105357. (唯一通讯)IF= 3JCR Q1

7.      Zhang Tairui, Lu Kai, Zhang Zhongdong, Shang Xiandong, Wang Qinghua. Experimental investigations on parameter identification and failure predictions of titanium alloy by Gurson–Tvergaard–Needleman model, Theoretical and Applied Fracture Mechanics. 127, 2023: 104058.IF= 5.3JCR Q1

8.      Zhang Tairui, Lu Kai, Shang Xiandong, Xie Mingjiang. Investigating effective yield surface of porous metals exhibit different hardening behaviors by cell models with randomly distributed spherical voids, Fatigue Fract Eng Mater Struct. 2023: 1–21. IF= 3.7JCR Q2

9.      Zhang Tairui, Li Jianxun, Yang Bin, Pei Xianjun, Jiang Wenchun. An incremental indentation energy method in predicting uniaxial tensile properties of ferritic-austenitic dissimilar metal welds from spherical indentation tests, International Journal of Pressure Vessels and Piping. 2023, 202: 104886. IF= 3JCR Q1

10.   Zhang Tairui, Zhao Yafan. A study on the parameter identification and failure prediction of ductile metals using Gurson–Tvergaard–Needleman (GTN) model. Materials Today Communications. 2023, 34: 105223. IF= 3.8JCR Q2

11.   Li Jianxun, Zhang Tairui, Wang Shang, Cheng Jirui, Wang Weiqiang. Mechanism and Method of Testing Fracture Toughness and Impact Absorbed Energy of Ductile Metals by Spherical Indentation Tests.                                    Chinese Journal of Mechanical Engineering. 2023, 36: 108. (共同通讯)IF= 4.2JCR Q1

12.   Li Jianxun, Wang Minghang, Li Ying, Chen Haofeng, Zhang Tairui, Weiqiang Wang. On the evaluation of uniaxial tensile and fracture properties of Ti-6Al-4V by spherical indentation tests with different calculation models. Fatigue & Fracture of Engineering Materials & Structures. 2023, 46, 4053–4072.(共同通讯) (IF=3.7JCR Q2)   

13.   Zhao Ziqi, Zhang Tairui, Song Wei, Jiang Wenchun, Wang Ping, Xing Shizhu, Pei Xianjun. A data-driven analysis for fatigue failure mode identification in load-carrying fillet welded joint with mechanical data augmentation. Fatigue & Fracture of Engineering Materials & Structures. 2022, 45(11): 3418- 3435.(与学生共一作)IF= 3.7JCR Q2

14.   Zhang Tairui, Li Jianxun, Sun Xun, Shang Xiandong, Wang Weiqiang. Improving the tensile property calculations with plastic zone radius measurements in depth-sensing spherical indentation tests. Journal of Strain Analysis for Engineering Design. 2022, 57(7):513-529. IF= 1.6JCR Q3

15.   Zhang Tairui, Lu Kai, Mano Akihiro, Yamaguchi Yoshihito, Katsuyama Jinya, Li Yinsheng. A novel method to uniquely determine the parameters in Gurson–Tvergaard–Needleman model[J]. Fatigue & Fracture of Engineering Materials & Structures, 2021, 44: 3399–3415. IF= 3.7JCR Q2

16.   Zhang Tairui, Lu KaiKatsuyama Jinya, Li Yinsheng. Stress intensity factor solutions for surface cracks with large aspect ratios in cylinders and plates [J]. International Journal of Pressure Vessels and Piping, 2021, 189: 104262. IF= 3JCR Q1

17.   Zhang Tairui, Wang Shang, Wang Weiqiang. An energy-based method for flow property determination from a single-cycle spherical indentation test (SIT)[J]. International Journal of Mechanical Sciences, 2020, 171: 105369. IF= 7.3JCR Q1

18.   Zhang Tairui, Guo Jianzhang, Wang Weiqiang. A strain-pattern-based spherical indentation method for simultaneous uniaxial tensile residual stress and flow property determination[J]. Journal of Strain Analysis for Engineering Design, 2020, 56(1): 50-64. IF= 1.6JCR Q3

19.   Zhang Tairui, Wang Shang, Wang Weiqiang. A comparative study on fracture toughness calculation models in spherical indentation tests (SITs) for ductile metals[J]. International Journal of Mechanical Sciences, 2019, 160: 114-128. IF= 7.3JCR Q1

20.   Zhang Tairui, Wang Shang, Wang Weiqiang. A study on determination of tensile properties of metals at elevated temperatures from spherical indentation tests[J]. Journal of Strain Analysis for Engineering Design, 2019, 54(5-6): 331-347. IF= 1.6JCR Q3

21.   Zhang Tairui, Wang Shang, Wang Weiqiang. A comparative study on uniaxial tensile property calculation models in spherical indentation tests (SITs)[J]. International Journal of Mechanical Sciences, 2019, 155: 159-169. IF= 7.3JCR Q1

22.   Zhang Tairui, Wang Shang, Wang Weiqiang. A unified energy release rate based model to determine the fracture toughness of ductile metals from unnotched specimens. International Journal of Mechanical Sciences, 2018, 150: 35-50. IF= 7.3JCR Q1

23.   Zhang Tairui, Wang Shang, Wang Weiqiang. A constitutive model independent analytical method in determining the tensile properties from incremental spherical indentation tests (ISITs)[J]. International Journal of Mechanical Sciences, 2018, 148: 9-19. IF= 7.3JCR Q1

24.   Zhang Tairui, Wang Shang, Wang Weiqiang. Improved methods to determine the elastic modulus and area reduction rate in spherical indentation tests[J]. Materials Testing, 2018, 60(4): 355-362. IF= 2.5JCR Q2

25.   Zhang Tairui, Wang Shang, Wang Weiqiang. Determination of the proof strength and flow properties of materials from spherical indentation tests: an analytical approach based on the expanding cavity model[J]. Journal of Strain Analysis for Engineering Design, 2018, 53(4): 225-241.IF= 1.6JCR Q3

26.   Zhang Tairui, Wang Shang, Wang Weiqiang. Method to determine the optimal constitutive model from spherical indentation tests. Results in Physics, 2018, 8: 716-727. IF= 5.3JCR Q1


科研项目

主持项目:

[1] 虑及焊接接头韧脆过渡特性的压入损伤机理及断裂韧度预测方法研究,国家自然科学基金(青年科学基金项目),在研(项目负责人),2024.01-2026.12。

[2] 压力管道压入损伤累积机制与低周疲劳寿命预测方法研究,国家自然科学基金(国际(地区)合作与交流项目),在研(项目负责人),2025.01-2026.12。

[3] 低周疲劳损伤压入表征机理与验证试验,在研,江苏省特种设备安全监督检验研究院。

[4] xxx,技装项目在研,中广核苏州热工院

[5] xxx技装项目在研,北京航材院

[6] 燃气管道老化检测技术研发研,山东省特种设备检验研究院集团有限公司。

[7] 燃气PE管道材质劣化的高通量原位压入测试机理与设备研发在研,山东省特种设备检验研究院集团有限公司

[8] 在役承压设备材质性能的自适应原位检测技术研究在研,江苏省特种设备安全监督检验研究院。

[9] 承压设备力学性能的压入检测技术及服役状态评价方法研究,结题,江苏省特种设备安全监督检验研究院。

[10] 解耦残余应力的单轴拉伸性能压入检测方法研究,结题,江苏省特种设备安全监督检验研究院。

[11] 基于细观损伤本构的超期服役老旧不锈钢失效行为预测,结题,江苏省特种设备安全监督检验研究院。

[12] 不同碳含量Mn-Ni-Mo模拟钢微试样断裂韧度测试,结题,中广核苏州热工研究院。


专利

发明专利

一种反复加卸载球形压头压入获取材料断裂韧度的方法CN108982261B,已授权)


张泰瑞 微损检测;数字图像相关;固体力学
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Email:[email protected]
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Personal Introduction

张泰瑞 副教授,博导


地址:南京市江宁区鸠摩搜书 路2号,鸠摩搜书 九龙湖校区,机械楼441

Email: [email protected]




Educational Background

1.      Zhang Tairui, Shang Xiandong, Zhang Naixin, Lu Kai, Xie Mingjiang. An investigation on fracture toughness predictions from mini-sized uniaxial tensile specimens with global and local approaches. Theoretical and Applied Fracture Mechanics, 2024, 131: 104366. IF= 5.3JCR Q1

2.      Zhang Tairui, Ma Xin, Yang Bin, Jiang Wenchun, Ge Zhiqiang, Liu Xiaochao. An experimental investigation on predicting the fracture toughness distributions in ferritic-austenitic stainless steel dissimilar metal welds from spherical indentation tests, Theoretical and Applied Fracture Mechanics. 129, 2024: 104198. IF= 5.3JCR Q1

3.      Zhang Tairui, Ma Xin, Yang Bin, Pei Xianjun, Ge Zhiqiang, Jiang Wenchun. An adaptive spherical indentation test integrating targeted testing scenarios, data acquisition, and model selection for uniaxial mechanical property predictions. International Journal of Pressure Vessels and Piping, 2024, 212: 105365. IF= 3JCR Q1

4.      Xie Mingjiang, Wang Yifei, Zhao Jianli, Pei Xianjun, Zhang Tairui. Prediction of pipeline fatigue crack propagation under rockfall impact based on multilayer perceptron, Reliability Engineering and System Safety. 2024, 242: 109772. (唯一通讯)IF= 8.1JCR Q1

5.      Ma Xin, Ge Zhiqiang, Zhang Tairui, Zheng Weiwei. Experimental investigations on characterizing the uniaxial mechanical property variations along the thickness of hydrogenation reactor welded joints by spherical indentation tests. Heliyon, 2024, 10(18). (唯一通讯)IF= 3.4JCR Q1

6.      Yu Weiwei, Zhang Lu, Li Weipeng, Chen Mingya, Peng Qunjia, Han Yaolei, Liu Han, Zhang Tairui. An experimental investigation on fracture toughness predictions for carbon segregation metals using spherical indentation tests. International Journal of Pressure Vessels and Piping, 2024, 212: 105357. (唯一通讯)IF= 3JCR Q1

7.      Zhang Tairui, Lu Kai, Zhang Zhongdong, Shang Xiandong, Wang Qinghua. Experimental investigations on parameter identification and failure predictions of titanium alloy by Gurson–Tvergaard–Needleman model, Theoretical and Applied Fracture Mechanics. 127, 2023: 104058.IF= 5.3JCR Q1

8.      Zhang Tairui, Lu Kai, Shang Xiandong, Xie Mingjiang. Investigating effective yield surface of porous metals exhibit different hardening behaviors by cell models with randomly distributed spherical voids, Fatigue Fract Eng Mater Struct. 2023: 1–21. IF= 3.7JCR Q2

9.      Zhang Tairui, Li Jianxun, Yang Bin, Pei Xianjun, Jiang Wenchun. An incremental indentation energy method in predicting uniaxial tensile properties of ferritic-austenitic dissimilar metal welds from spherical indentation tests, International Journal of Pressure Vessels and Piping. 2023, 202: 104886. IF= 3JCR Q1

10.   Zhang Tairui, Zhao Yafan. A study on the parameter identification and failure prediction of ductile metals using Gurson–Tvergaard–Needleman (GTN) model. Materials Today Communications. 2023, 34: 105223. IF= 3.8JCR Q2

11.   Li Jianxun, Zhang Tairui, Wang Shang, Cheng Jirui, Wang Weiqiang. Mechanism and Method of Testing Fracture Toughness and Impact Absorbed Energy of Ductile Metals by Spherical Indentation Tests.                                    Chinese Journal of Mechanical Engineering. 2023, 36: 108. (共同通讯)IF= 4.2JCR Q1

12.   Li Jianxun, Wang Minghang, Li Ying, Chen Haofeng, Zhang Tairui, Weiqiang Wang. On the evaluation of uniaxial tensile and fracture properties of Ti-6Al-4V by spherical indentation tests with different calculation models. Fatigue & Fracture of Engineering Materials & Structures. 2023, 46, 4053–4072.(共同通讯) (IF=3.7JCR Q2)   

13.   Zhao Ziqi, Zhang Tairui, Song Wei, Jiang Wenchun, Wang Ping, Xing Shizhu, Pei Xianjun. A data-driven analysis for fatigue failure mode identification in load-carrying fillet welded joint with mechanical data augmentation. Fatigue & Fracture of Engineering Materials & Structures. 2022, 45(11): 3418- 3435.(与学生共一作)IF= 3.7JCR Q2

14.   Zhang Tairui, Li Jianxun, Sun Xun, Shang Xiandong, Wang Weiqiang. Improving the tensile property calculations with plastic zone radius measurements in depth-sensing spherical indentation tests. Journal of Strain Analysis for Engineering Design. 2022, 57(7):513-529. IF= 1.6JCR Q3

15.   Zhang Tairui, Lu Kai, Mano Akihiro, Yamaguchi Yoshihito, Katsuyama Jinya, Li Yinsheng. A novel method to uniquely determine the parameters in Gurson–Tvergaard–Needleman model[J]. Fatigue & Fracture of Engineering Materials & Structures, 2021, 44: 3399–3415. IF= 3.7JCR Q2

16.   Zhang Tairui, Lu KaiKatsuyama Jinya, Li Yinsheng. Stress intensity factor solutions for surface cracks with large aspect ratios in cylinders and plates [J]. International Journal of Pressure Vessels and Piping, 2021, 189: 104262. IF= 3JCR Q1

17.   Zhang Tairui, Wang Shang, Wang Weiqiang. An energy-based method for flow property determination from a single-cycle spherical indentation test (SIT)[J]. International Journal of Mechanical Sciences, 2020, 171: 105369. IF= 7.3JCR Q1

18.   Zhang Tairui, Guo Jianzhang, Wang Weiqiang. A strain-pattern-based spherical indentation method for simultaneous uniaxial tensile residual stress and flow property determination[J]. Journal of Strain Analysis for Engineering Design, 2020, 56(1): 50-64. IF= 1.6JCR Q3

19.   Zhang Tairui, Wang Shang, Wang Weiqiang. A comparative study on fracture toughness calculation models in spherical indentation tests (SITs) for ductile metals[J]. International Journal of Mechanical Sciences, 2019, 160: 114-128. IF= 7.3JCR Q1

20.   Zhang Tairui, Wang Shang, Wang Weiqiang. A study on determination of tensile properties of metals at elevated temperatures from spherical indentation tests[J]. Journal of Strain Analysis for Engineering Design, 2019, 54(5-6): 331-347. IF= 1.6JCR Q3

21.   Zhang Tairui, Wang Shang, Wang Weiqiang. A comparative study on uniaxial tensile property calculation models in spherical indentation tests (SITs)[J]. International Journal of Mechanical Sciences, 2019, 155: 159-169. IF= 7.3JCR Q1

22.   Zhang Tairui, Wang Shang, Wang Weiqiang. A unified energy release rate based model to determine the fracture toughness of ductile metals from unnotched specimens. International Journal of Mechanical Sciences, 2018, 150: 35-50. IF= 7.3JCR Q1

23.   Zhang Tairui, Wang Shang, Wang Weiqiang. A constitutive model independent analytical method in determining the tensile properties from incremental spherical indentation tests (ISITs)[J]. International Journal of Mechanical Sciences, 2018, 148: 9-19. IF= 7.3JCR Q1

24.   Zhang Tairui, Wang Shang, Wang Weiqiang. Improved methods to determine the elastic modulus and area reduction rate in spherical indentation tests[J]. Materials Testing, 2018, 60(4): 355-362. IF= 2.5JCR Q2

25.   Zhang Tairui, Wang Shang, Wang Weiqiang. Determination of the proof strength and flow properties of materials from spherical indentation tests: an analytical approach based on the expanding cavity model[J]. Journal of Strain Analysis for Engineering Design, 2018, 53(4): 225-241.IF= 1.6JCR Q3

26.   Zhang Tairui, Wang Shang, Wang Weiqiang. Method to determine the optimal constitutive model from spherical indentation tests. Results in Physics, 2018, 8: 716-727. IF= 5.3JCR Q1


Professional Experience
Teaching

主持项目:

[1] 虑及焊接接头韧脆过渡特性的压入损伤机理及断裂韧度预测方法研究,国家自然科学基金(青年科学基金项目),在研(项目负责人),2024.01-2026.12。

[2] 压力管道压入损伤累积机制与低周疲劳寿命预测方法研究,国家自然科学基金(国际(地区)合作与交流项目),在研(项目负责人),2025.01-2026.12。

[3] 低周疲劳损伤压入表征机理与验证试验,在研,江苏省特种设备安全监督检验研究院。

[4] xxx,技装项目在研,中广核苏州热工院

[5] xxx技装项目在研,北京航材院

[6] 燃气管道老化检测技术研发研,山东省特种设备检验研究院集团有限公司。

[7] 燃气PE管道材质劣化的高通量原位压入测试机理与设备研发在研,山东省特种设备检验研究院集团有限公司

[8] 在役承压设备材质性能的自适应原位检测技术研究在研,江苏省特种设备安全监督检验研究院。

[9] 承压设备力学性能的压入检测技术及服役状态评价方法研究,结题,江苏省特种设备安全监督检验研究院。

[10] 解耦残余应力的单轴拉伸性能压入检测方法研究,结题,江苏省特种设备安全监督检验研究院。

[11] 基于细观损伤本构的超期服役老旧不锈钢失效行为预测,结题,江苏省特种设备安全监督检验研究院。

[12] 不同碳含量Mn-Ni-Mo模拟钢微试样断裂韧度测试,结题,中广核苏州热工研究院。


Research Interests

发明专利

一种反复加卸载球形压头压入获取材料断裂韧度的方法CN108982261B,已授权)


Refereed Journals
Other Professional Activities
Selected Publications
Research Projects
Patents and Applications