教学科研岗

张 宏

姓名:张 宏

性别:男

出生年月:1982-06

学位:博士

职称:副研究员/博士生导师

联系电话:028-64698160

电子邮箱:zzhanghong@scu.edu.cn

传真:

通讯地址:成都市一环路南一段24号四川大学151amjs澳金沙门力学系

邮编:610065

个人描述

主要从事材料服役性能与可靠性评估、材料加工工艺与力学性能计算及大数据分析研究。基于多尺度-多物理场有限元集成计算方法,结合试验与材料表征手段研究材料力学行为与损伤失效机理及微观演化机制。具体包括材料加工工艺及服役环境对材料循环塑性及损伤演化行为影响,基于本构关系与集成计算材料方法分析并预测材料塑性演化与损伤,基于大数据分析建立材料服役过程寿命评估和可靠性模型,为工程服役损伤评估与材料性能设计提供理论依据和技术指导。目前已构建了多种疲劳寿命预测模型并已在企业产品设计和使用端验证应用。近年来主持国家及省部级科研课题40余项,发表学术论文40余篇,其中SCI论文35篇,申请发明专利25项,其中已授权中国发明14项(已成功转让一项)、美国发明专利2项,实用新型专利2项、软件著作权7项。


欢迎具有材料学/材料加工、力学、机械、计算机等专业背景的学者/学生咨询,熟悉微观表征、有限元及编程者优先。

学习及工作经历

2021/08-至今,四川大学,151amjs澳金沙门,副研究员

2019/08,德国克劳斯塔尔工业大学(Technische Universität Clausthal),访学

2018/10-2021/10,四川大学,151amjs澳金沙门,固体力学博士后

2015/09-2018/09,四川大学,151amjs澳金沙门,固体力学,博士

2012/06-2015/05,中国第二重型机械集团大型铸锻件数值模拟国家工程实验室,主任工程师

2007/07-2012/05,法国ESI集团,技术部,产品经理

2004/09-2007/06,西南交通大学,材料加工工程,硕士

2000/09-2004/06,兰州理工大学,材料成型及控制工程,学士

主要研究领域

  1. 材料力学行为、损伤机制及寿命可靠性评估

  2. 材料改性、微观表征及本构关系与结构拓扑优化

  3. 材料加工工艺与力学性能集成计算及机器学习

承担的主要课程

本科:结构力学,材料工艺力学与数值模拟方法(跨学科交叉课程)

研究生:材料疲劳与结构耐久性,非线性有限元法

主持的科研及教改项目

  1. 国家自然科学面上基金,12272245,热-机载荷下叶片材料塑性损伤机理与蠕变-疲劳寿命预测研究,2023.01-2026.12,在研,主持;

  2. 四川省应用基础研究项目(需求引导型),2022NSFSC0324,增材制造钛铝合金温度相关力学性能、微观演化及寿命评估技术研究,2022.01-2023.12,在研,主持;

  3. 国家博士后面上基金,2019M653396,增材制造镍基材料疲劳失效与微观组织演化影响研究,2019.01-2021.12,在研,主持;

  4. 中央高校基本科研项目,疲劳载荷下高温转子耐热钢循环软化与损伤机理研究,2019.01-2019.12,已结题,主持;

  5. 四川大学博士后基金,2019SCU12056,基于试验与晶体塑性计算研究疲劳裂纹萌生机理和微观短裂纹扩展行为,2019.01-2021.12,在研,主持;

  6. 四川大学-自贡市政府战略合作项目,2019-CDZG-4,增材制造零部件工艺设计与服役性能评估技术研究,2019.08-2022.08,在研,主持;

  7. 四川大学-宜宾市政府战略合作项目,2019-CDYB-24,汽车超高强钢冲压回弹工艺模拟应用研究,2019.12-2022.12,在研,主持;

  8. 国家重点实验室项目,HG2020057,定向晶材料热等静压及热处理技术开发研究,2020.5-2021.5,在研,主持;

  9. 国家重点实验室项目,HG2020070,压缩机技术研究及开发(离心式)-超高周疲劳性能研究,2020.06-2021.12,在研,主持;

  10. 国家重点实验室项目,HG2019027,630℃高温转子耐热钢微观性能与疲劳寿命评估研究,2019.01-2020.12,已结题,主持;

  11. 国家重点实验室项目,HG2019010,模拟件寿命评估相关疲劳和断裂试验研究,已结题,2019.01-2020.12,在研,主持;

  12. 国家重点实验室项目,HG2019119,时效试样组织结构分析研究,2019.10-2020.06,已结题,主持;

  13. 企业横向,21H0107,增材制造工艺过程数值仿真与疲劳失效机理研究,2021.01-2023.12,主持;

  14. 企业横向,HG2020070,基于GROD/KAM技术的镍基高温合金部件服役损伤形式评估技术研究,2021.06-2022.12,主持;

  15. 企业横向,HG2023130,弹簧疲劳性能试验与寿命评估仿真硏究,2023.06-2025.06,主持;

    其他项目等25项。



  16. 参与科研项目:

  17. 国家自然科学基金青年基金项目,11802189,热-机械载荷下准晶体中多重平面裂纹交互影响的三维分析,2019.01-2021.12,在研,参加;

  18. 国家自然科学基金面上项目,11772209,高温高频条件下航空合金焊接接头超长寿命疲劳损伤机理与寿命预测研究,2018.01-2021.12,在研,参加;

  19. 国家自然科学基金面上项目,11672195,新型高强高韧微/纳米叠层金属材料的界面力学行为与强韧化机理,2016.01-2020.12,在研,参加;

  20. 上海电气集团横向项目,13H0732,转子超高周疲劳行为研究,2013.07-2016.07,已结题,参加。

获奖荣誉

  1. 复杂环境载荷下超长寿命疲劳加速测试关键技术与装备研发,教育部高等学校技术发明奖(排名第三)

  2. 复杂条件下高频振动疲劳试验技术与应用,中国发明协会一等奖(排名第三)

  3. 中国产学研合作创新与促进奖产学研合作创新成果奖二等奖(排名第六)

  4. 全国高等学校力学类专业优秀本科毕业设计论文指导老师

  5. 四川大学生力学竞赛暨第八届孙训方大学生力学竞赛优秀指导教师

  6. 四川大学本科优秀毕业论文指导老师

代表性论著

  1. Q. Wang, Y. Cai, M. Liu, Q. Li, Y. Pei,Hong. Zhang*, Y. Liu, Q. Wang, The cyclic response behavior, failure mechanism, and life prediction model of 9% Cr‐based steel under different strain ratios in the low cyclic fatigue regime at 430°C,Fatigue & Fracture of Engineering Materials & Structures(2023).

  2. Y. Zhang,Hong. Zhang*, T. Zou, M. Liu, Q. Wang, Y. Pei, Y. Liu, Q. Wang, Microstructure-Based Multiscale Modeling of Deformation in MarBN Steel under Uniaxial Tension: Experiments and Finite Element Simulations,Materials16(14) (2023).

  3. M. Liu, Y. Cai, Q. Wang, Y. Jiang, T. Zou, Y. Wang, Q. Li, Y. Pei,Hong. Zhang*, Y. Liu, Q. Wang, The low cycle fatigue property, damage mechanism, and life prediction of additively manufactured Inconel 625: Influence of temperature,Fatigue & Fracture of Engineering Materials & Structures (2023).

  4. Q. Wang, F. Yang, T. Zou, M. Liu, Y. Jiang, Y. Pei,Hong. Zhang*, Y. Liu, Q. Wang, Effect of microstructure on the fatigue crack growth behavior of 9%Cr martensitic steel at different stress ratios under 630℃,International Journal of Fatigue175 (2023)107796.

  5. T. Zou, M. Liu, Y. Cai, Q. Wang, Y. Jiang, Y. Wang, Z. Gao, Y. Pei,Hong. Zhang*, Y. Liu, Q. Wang, Effect of temperature on tensile behavior, fracture morphology, and deformation mechanisms of Nickel-based additive manufacturing 939 superalloy,Journal of Alloys and Compounds(2023) 170559.

  6. T. Zou, M. Liu, Y. Cai, Q. Wang, Y. Jiang, Y. Wang, Y. Pei,Hong. Zhang*, Y. Liu, Q. Wang, Analysis of the Tensile Deformation Behaviors and Microstructure Characterization under Various Temperatures of MarBN Steel by EBSD,Materials, 2023.

  7. Y. Jiang, T. Zou, M. Liu, Y. Cai, Q. Wang, Y. Wang, Y. Pei,Hong. Zhang*, Y. Liu, Q. Wang, Temperature and Strain Rate Dependence on the Tensile Mechanical Properties, Constitutive Equations, and Fracture Mechanisms of MarBN Steel,Materials,2023.

  8. Q. Wang, M. Liu, Y. Cai, T. Wang, Y. Pei,Hong. Zhang*, Y. Liu, Q. Wang, The high cycle fatigue behavior, failure characteristics, and fatigue life empirical relationship of 9% Cr steel under different stress ratios at 630 °C,International Journal of Fatigue170 (2023).

  9. Hong Zhang, D. Lu, Y. Pei, T. Chen, T. Zou, T. Wang, X. Wang, Y. Liu, Q. Wang, Tensile behavior, microstructural evolution, and deformation mechanisms of a high Nb-TiAl alloy additively manufactured by electron beam melting,Materials & Design225 (2023).

  10. Y. Cai, Q. Wang, M. Liu, Y. Jiang, T. Zou, Y. Wang, Q. Li, Y. Pei,Hong Zhang*, Y. Liu, Q. Wang, Tensile Behavior, Constitutive Model, and Deformation Mechanisms of MarBN Steel at Various Temperatures and Strain Rates,Materials15(24) (2022) 8745.

  11. Hong Zhang, Yubing. Pei,XiufangGong, Xiaohui Chen, Wei Zhang, Peng Zhang, Lang Li, Yongjie Liu, Qingyuan Wang, Deformation nanotwins in a single-crystal Ni-based superalloy at room temperature and low strain rate,Mater Charact187 (2022) 111865.

  12. Tianjian Wang,Hong Zhang*, Chunhua Liu, Xiufang Gong, Yubing Pei, Yu Zou, Yongjie Liu, Qingyuan Wang, Effect of temperature on tensile behavior, fracture morphology and deformation mechanisms of Nickel-based single crystal CMSX-4,Journal of Alloys and Compounds(2022) 165175.

  13. Ma Yaxin,Zhang Hong*, Gao Yifei, Men Zhengxing, He Ling, Cao Jianguo, Failure analysis of a natural gas transmission X60 steel pipeline,Anti-Corrosion Methods and Materials2022.

  14. HongZhang, Quanyi Wang, Xiufang Gong, Tianjian Wang, Yubing Pei, Wei Zhang, Yongjie Liu, Chong Wang, Qingyuan Wang, Comparisons of low cycle fatigue response, damage mechanism, and life prediction of MarBN steel under stress and strain-controlled modes,International Journal of Fatigue149 (2021).

  15. Hong Zhang, Quanyi Wang, Xiufang Gong, Tianjian Wang, Wei Zhang, Ke Chen, Chong Wang, Yongjie Liu*, Qingyuan Wang, Dependence on temperature of compression behavior and deformation mechanisms of Nickel-based single crystal CMSX-4[J].Journal of Alloys and Compounds, (2021) 158878.

  16. Xiufang Gong, Tianjian Wang, Qingsong Li, Yongjie Liu,Hong Zhang*, Wei Zhang, Quanyi Wang, Qingyuan Wang, Cyclic responses and microstructure sensitivity of Cr-based turbine steel under different strain ratios in low cycle fatigue regime,Materials & Design(2021) 109529.

  17. X. Zhang, T. Wang, X. Gong, Q. Li, Y. Liu, Q. Wang,Hong Zhang*, Q. Wang, Low cycle fatigue properties, damage mechanism, life prediction and microstructure of MarBN steel: Influence of temperature[J].International Journal of Fatigue, 2021, 144:106070.

  18. Liu, Meng, Quanyi Wang, Yifan Cai, Dong Lu, Tianjian Wang, Yubing Pei,Hong Zhang*, Yongjie Liu, and Qingyuan Wang, Comparison in Deformation Behavior, Microstructure, and Failure Mechanism of Nickel Base Alloy 625 under Two Strain Rates,Materials. 2021; 14(10):2652.

  19. Hong Zhang, Peidong Li, Xiufang Gong, Tianjian Wang, Lang Li, Yongjie Liu, Qingyuan Wang, Tensile properties, strain rate sensitivity and failure mechanism of single crystal superalloys CMSX-4,Materials Science and Engineering: A(2020) 782(24).

  20. Q. Wang, Q. Wang, X. Gong, T. Wang, W. Zhang, L. Li, Y. Liu, C. He, C. Wang,Hong Zhang*, A comparative study of low cycle fatigue behavior and microstructure of Cr-based steel at room and high temperatures,Materials & Design195 (2020) 109000.

  21. Q. Wang, Y. Chen, Y. Liu, C. Wang, L. Li, C. He, X. Gong, T. Wang, W. Zhang, Q. Wang,Hong Zhang*, The Effect of Stress Ratios on the Very High Cycle Fatigue Behavior of 9%Cr Turbine Steel at 630 °C,Materials13(216) (2020) 3444.

  22. Hong Zhang,P. Li, Q. Wang*, Z. Guan, Y. Liu, X. Gong, Electron Beam Welding of Nimonic 80A Superalloy: Microstructure Evolution and EBSD Study After Aging Heat Treatment,Journal of Materials Engineering and Performance28(2) (2019) 741-752.

  23. Hong Zhang, P. Li, Q. Wang*, Y. Liu, Fatigue Crack Propagation of Nickel-Based Superalloy: Experiments and Simulations with Extended Finite Element Method,Journal of Materials Engineering and Performance28(2) (2019) 967-972.

  24. Hong Zhang, J.K. Li, Z.W. Guan, Y.J. Liu, D.K. Qi, Q.Y. Wang*, Electron beam welding of Nimonic 80A: Integrity and microstructure evaluation,Vacuum151 (2018) 266-274.

  25. Hong Zhang, M. Zhengxing, L. Jiukai, L. Yongjie, W. Qingyuan*, Numerical Simulation of the Electron Beam Welding and Post Welding Heat Treatment Coupling Process,High Temperature Materials and Processes37(9-10) (2018) 793-800.

  26. Hong Zhang, Huang C, Guan Z, Li J, Liu Y, Chen R, Wang Q*. Effects of the Electron Beam Welding Process on the Microstructure, Tensile, Fatigue and Fracture Properties of Nickel Alloy Nimonic 80A[J].Journal of Materials Engineering and Performance, 2017,27:(1): 89-98.

  27. Hong Zhang, Z.W. Guan, Q.Y. Wang, Y.J. Liu, J.K. Li, Effects of Stress Ratio and Microstructure on Fatigue Failure Behavior of Polycrystalline Nickel Superalloy,Journal of Materials Engineering and Performance27(5) (2018) 2534-2544.

  28. P. Zhang, Y. Yuan, J. Li, J.B. Yan,Hong Zhang, X.B. Zhao, X.B. Shi, Y.F. Gu, Deformation Modes in the Single-Crystal Nickel-Based Superalloy CMSX-4 During Compressive Deformation at 1000 °C,Metall and Mat Trans A53(2) (2022) 388-393.

  29. Y. Liu, Y. Chen, C. He, F. Liu, K. Yang, L. Li,Hong Zhang, C. Wang, Q. Wang, Vacuum retarding and air accelerating effect on the high-cycle and very-high-cycle fatigue behavior of a ZK60 magnesium alloy,Materials & Design, (2020) 109310.

  30. P. Li, Y. Liu,Hong Zhang, Q. Wang*, Indentation on a half-infinite one-dimensional hexagonal quasi-crystal space by a rigid flat-ended cylindrical indenter with uniform heat flux or temperature,Mechanics of Materials131 (2019) 33-46.

  31. P. Li,Hong Zhang, Q. Wang, B. Shao, H. Fan, Effect of temperature on the performance of laterally constrained dielectric elastomer actuators with failure modes,Journal of Applied Polymer Science, 137 (2020).

  32. Y. Chen, C. He, K. Yang,Hong Zhang, C. Wang, Q. Wang, Y. Liu, Effects of microstructural inhomogeneities and micro-defects on tensile and very high cycle fatigue behaviors of the friction stir welded ZK60 magnesium alloy joint,International Journal of Fatigue122 (2019) 218-227.

  33. Y. Liu, Y. Chen, C. He, F. Liu, K. Yang, L. Li,Hong Zhang, C. Wang, Q. Wang, Vacuum retarding and air accelerating effect on the high-cycle and very-high-cycle fatigue behavior of a ZK60 magnesium alloy,Materials & Design(2020) 109310.

  34. F. Liu,Hong Zhang, H. Liu, Y. Chen, K. Muhammad Kashif, Q. Wang, Y. Liu, Influence of Welded Pores on Very Long-Life Fatigue Failure of the Electron Beam Welding Joint of TC17 Titanium Alloy,Materials12(11) (2019) 1825.

  35. 门正兴,郑金辉,王昌飞,张宏,刘建超,马亚鑫,岳太文,激光选区熔化成形Ti6Al4V钛合金叶片的超高周疲劳行为,锻压技术, 45 (2020) 89-93+125.

  36. 张宏,李久楷,刘永杰,王清远*, GH80A镍合金电子束焊接接头旋转弯曲高周疲劳行为研究,工程科学与技术49(04) (2017) 188-195.

  37. 李久楷,刘永杰,张宏,杨昆,王清远*, Ti-6Al-4V在模拟体液中的超高周疲劳裂纹萌生与扩展,实验力学31(06) (2016).

  38. 孙德润,张宏,门正兴,冷却速度对铸件二次枝晶臂间距影响的模拟研究,大型铸锻件,2014(04):1-3+10

  39. 瞿贵峰,门正兴,李英,张宏,有色金属轧机工作辊感应淬火过程数值模拟分析,大型铸锻件, 2014(05):11-13

  40. 王秋林,李明富,门正兴,李勇,张宏*,激光熔化沉积制造翅片热管管壳,热加工工艺1-5.

  41. 曾小平,王秋林,马亚鑫,张宏*, 7075铝合金激光熔覆Al-Cr复合涂层,粉末冶金工业1-7.

    门正兴,郑金辉,王昌飞,张宏*,激光选区熔化成形Ti6Al4V钛合金叶片的超高周疲劳行为,锻压技术45(11) (2020) 89-93+125.

教改文章

张宏,刘迪,何超,李浪,王宠,刘永杰,王清远,“新工科”背景下面向智能制造的力学专业教改探究,中国多媒体与网络教学学报,2023

学术兼职

中国力学学会会员/四川省力学学会会员/四川省振动力学学会理事

International Journal of Fatigue /Journal of Materials Engineering and Performance/ Vacuum/Science reports/Material letters等期刊审稿人

发明专利

  1. 张宏,邱近贻,牛池,彭堃恩,梅瑞东,李艳,刘永杰,王宠,何超,李浪,王清远.一种用于激光增材制造工艺的热源数值模拟方法,2022-09-27,中国,ZL202110474227.X

  2. 张宏,刘佳,何杨,李艳,刘永杰,王宠,何超,李浪,王清远.基于材料本构优化模型的汽车高强度钢冲压回弹优化方法,2022-09-27,中国,ZL202110474304.1

  3. 张宏,张玮,王林森,王清远,刘永杰,王宠,何超,李浪.一种低周疲劳测试数据处理与内应力评估方法,2021-11-22,中国,ZL202010588246.0

  4. 张宏,张玮,王林森,王清远,刘永杰,王宠,何超,李浪.基于晶体塑性的疲劳裂纹萌生与扩展的损伤寿命评估方法,2021-06-30,中国,ZL202010586845.9

  5. 张宏,张玮,王林森,王清远,刘永杰,王宠,何超,李浪.一种基于机器学习的材料抗疲劳优化设计方法,2021-06-01,中国,ZL202010321360.7

  6. 张宏,王清远,刘永杰,王宠,何超,李浪.针对单晶材料热-机疲劳本构模型的损伤计算方法,2021-02-23,中国,ZL202010321378.7

  7. 张宏,王清远,刘永杰,王宠,李浪.基于Abaqus平台疲劳损伤与寿命评估计算方法,2019-06-12,中国,ZL201910507043.1

  8. 张宏,王清远,刘永杰,王宠,李浪.基于晶体塑性焊接工艺模型的损伤与疲劳寿命评估方法,2019-06-12,中国,ZL201910507813.2

  9. 张宏,王清远,刘永杰,王宠,李浪.微观-宏观尺度钣金成形工艺模型的损伤与疲劳寿命评估方法,2019-06-12,中国,ZL201910507041.2

  10. 王清远,张宏,李久楷,刘永杰.材料热加工全流程热力流微观组织多物理场数值计算方法,2016-07-25,中国,ZL201610585461.9

  11. 王清远,张宏,李久楷,刘永杰.摩擦焊工艺热力流微观组织多物理场数值计算方法,2016-07-25,中国,ZL201610586477.1

  12. 刘永杰,张宏,王清远,王宠,李浪.面心立方材料疲劳过程晶体塑性本构模型建立方法,2019-06-12,中国,ZL201910507805.8

  13. ZHANGHONGet al. METHOD FOR ASSESSING FATIGUE DAMAGE AND A FATIGUE LIFE BASED ON A CRYSTAL PLASTIC WELDING PROCESS MODEL, US Patent, GBCD044-PKG.

  14. ZHANGHONGet al. METHOD FOR ASSESSING FATIGUE DAMAGE AND FATIGUE LIFE BASED ON ABAQUS, US Patent, GBCD043-PKG.

实用新型专利

  1. 一种结构单元类零件高周疲劳专用夹具,2020-04-08,中国,ZL201921840339.7

  2. 一种缺陷条带微型弹簧类零件高周疲劳专用夹具,2020-04-08,中国,ZL201921853444.4

软件著作权

1.疲劳损伤与寿命评估计算软件V1.0,2020SR0933313

2.疲劳寿命与可靠性评估数据库系统V1.0,2020SR0927272

3.材料拉伸本构参数拟合高通量计算软件V1.0,2022SR0674625

4.基于温度和应变速率本构模型的冲压成型计算软件V1.0,2022SR0674624

5.焊接工艺专家库系统V1.0,2023SR0242642

6.增材制造工艺数据库专家系统V1.0,2023SR0246137

7.材料性能数据库系统V1.0,2023SR0246160

性别 出生年月 1982-06
学位 博士 职称 副研究员/博士生导师
联系电话 028-64698160 电子邮箱 zzhanghong@scu.edu.cn
传真 通讯地址 成都市一环路南一段24号四川大学151amjs澳金沙门力学系
邮编 610065
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