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更新日期:2024年2月29日 姓 名 蒋震宇 性 别 男 出生年月 1977年1月 籍贯 民 族 汉族 政治面貌 群众 最后学历 博士研究生毕业 最后学位 工学博士 技术职称 教授 导师类别 博、硕导 行政职务 系副主任 Email zhenyujiang@scut.edu.cn 工作单位 华南理工大学 邮政编码 510640 通讯地址 广州市天河区五山路381号 单位电话 020-87111030-3304 个人简介 现任华南理工大学教授,中国力学学会实验力学专业委员会实验力学新方法专业组成员,中国颗粒学会青年理事,广东省力学学会常务理事,新加坡光学和光子学学会中国学会技术委员会成员。主要研究方向为实验固体力学和复合材料力学,具体包括:基于机器视觉的形貌和变形测量技术;微纳米多相复合材料的力学性质及增强机理;先进工程材料研制及力学模型。发表国内外期刊论文100余篇,被引用超过3200次(Google scholar citations)。应邀担任国家自然科学基金评审专家、Optics and Lasers in Engineering客座编辑及三十余家国际学术期刊的通讯审稿人。参编英文学术专著两部,分别由Springer和De Gruyter出版。已获授权发明专利7项,软件著作权2项。先后主持国家自然科学基金、教育部留学回国人员科研启动基金、国家重点实验室开放课题等项目,参与多项国家自然科学基金、广东省自然科学基金、企事业单位委托科技项目。开源项目:数字图像/体相关法(DIC/DVC)软件开发库OpenCorr(www.opencorr.org)长期招收固体力学方向博士后(特别是有实验力学和复合材料力学研究经验者),招收2025年博士生和硕士生,有兴趣的同学请发简历至zhenyujiang@scut.edu.cn。 工作经历 2005-2007, Technical University of Kaiserslautern (Germany), Research Associate2007-2009, Hong Kong Polytechnic University (Hong Kong), Postdoctoral Fellow2009-2011, Queen’s University Belfast (United Kingdom), Research Fellow2011至今, 华南理工大学, 副教授 (2011-2017), 教授/博士生导师 (2017至今) 教育经历 1. 1999年7月,中国科学技术大学,理论与应用力学学士学位2. 2005年1月,中国科学技术大学,固体力学博士学位 获奖、荣誉称号 2010年1月,教育部自然科学奖一等奖(第5完成人),微尺度实验力学新方法与微结构力学性能实验表征2017年11月,中国力学学会全国徐芝纶力学优秀教师奖2018年10月,Composites Part A: Outstanding Contribution in Reviewing2021年3月,广东省科技进步奖二等奖(第7完成人),面向桥梁长期健康检测的大数据处理技术及应用2023年12月,广东省电气行业科学技术奖二等奖(第6完成人),基于AI视觉与电动喷臂的精准洗涤系统在家用洗碗机上的应用研究 社会、学会及学术兼职 1. 中国力学学会实验力学专业委员会实验力学新方法专业组成员2. 中国颗粒学会青年理事3. 广东省力学学会常务理事4. 新加坡光学和光子学学会中国学会技术委员会成员 研究领域 实验固体力学和复合材料力学,主要包括:基于机器视觉的变形和形貌测量技术;微纳米多尺度复合材料的力学性质;先进工程材料研制和力学模型 科研项目 1. 国家自然科学基金面上项目,12072115,纤维增强水凝胶复合材料的力学性能及实验评估方法研究,2021/01-2024/12,62万元,主持。2. 国家自然科学基金面上项目,11772131,用于泡沫金属材料内部变形场分析的高精度数字体图像相关法研究,2018/01-2021/12,64万元,主持。3. 国家自然科学基金青年科学基金项目,11202081,纳米颗粒和连续纤维对微纳米多相复合材料压缩性能的协同增强机理研究,2013/01-2015/12,26万元,主持。4. 教育部留学回国人员科研启动基金项目,微纳米多相复合材料中纤维/基体界面的力学性质研究,2013/12-2014/12,3万元,主持。5. 非线性力学国家重点实验室开放课题,碳纳米管增强高分子复合材料中的力学逾渗现象研究,2017/03-2017/12,5万元,主持。6. 华南理工大学中央高校基本科研业务费重点项目,纳米填充相和连续纤维协同增强的多重复合材料界面力学性质研究,2013/01-2014/12,20万元,主持。7. 华南理工大学中央高校基本科研业务费重点项目,高精度强适应性数字图像相关法研究及其并行计算实现,2017/01-2018/12,15万元,主持。8. 国家自然科学基金重点项目,12232017,细胞外基质高阶复杂变形场测量方法和细胞病变损伤力学机制研究,2023/01-2027/12,301万元,参与。9. 国家自然科学基金面上项目,11772132,围压下环氧树脂基混凝土的动态压剪累积损伤与破坏行为研究,2018/01-2021/12,64万元,参与。10. 广东省科技计划项目,2015B010131009,面向桥梁长期健康监测的大数据处理技术及应用,2016/01-2018/12,500万元,参与。11. 广州市科技项目,201903010046,基于云计算的桥梁长期健康监测系统开发及示范应用,2019/04-2023/3,100万元,参与。 发表论文 主要论文(*通讯作者)- I - 基于机器视觉的变形和形貌测量技术1. Wang YR, Li R, Lu MZ, Fan ZW, Yang C, Xu YT, Jiang ZY*, Sun TL*. Photo-crosslinking speckle patterns for large deformation measurement of hydrogels using digital image correlation. Applied Physics Letters 2023; 123(18): 181904.2. Zhou YF, Zuo QJ, Zhou LC, Yang B, Liu ZJ, Liu YP, Tang LQ, Dong SB*, Jiang ZY*. Image feature based quality assessment of speckle patterns for digital image correlation measurement. Measurement 2023; 222: 113590.3. Jiang ZY*, OpenCorr: An open source library for research and development of digital image correlation. Optics and Lasers in Engineering 2023; 165: 107566.4. Lin AY, Li R, Jiang ZY*, Dong SB*, Liu YP, Liu ZJ, Zhou LC, Tang LQ. Tang, Path independent stereo digital image correlation with high speed and analysis resolution. Optics and Lasers in Engineering 2022; 149:106812.5. Cai LC, Yang JR, Dong SB*, JiangZY*. GPU accelerated parallel reliability-guided digital volume correlation with automatic seed selection based on 3D SIFT. Parallel Computing 2021; 108:102824.6. Yang JR, Huang JW, Jiang ZY*, Dong SB*, Tang LQ, Liu YP, Liu ZJ, Zhou LC. 3D SIFT aided path independent digital volume correlation and its GPU acceleration. Optics and Lasers in Engineering 2021; 136:106323.7. Yang JR, Huang JW, Jiang ZY*, Dong SB*, Tang LQ, Liu YP, Liu ZJ, Zhou LC. SIFT-aided path-independent digital image correlation accelerated by parallel computing. Optics and Lasers in Engineering 2020; 127:105964.8. Huang JW, Zhang LQ, Jiang ZY*, Dong SB*, Chen W, Liu YP, Liu ZJ, Zhou LC, Tang LQ. Heterogeneous parallel computing accelerated iterative subpixel digital image correlation. Science China Technological Sciences 2018; 61(1):74-85.9. Chen W, Jiang ZY*, Tang LQ, Liu YP, Liu ZJ. Equal noise resistance of two mainstream iterative sub-pixel registration algorithms in digital image correlation. Experimental Mechanics 2017; 57(6): 979-996.10. Wang TY, Jiang ZY*, Kemao Q*, Lin F, Soon H. GPU accelerated digital volume correlation. Experimental Mechanics 2016; 56(2): 297-309.11. Pan ZW, Chen W, Jiang ZY*, Tang LQ, Liu YP, Liu ZJ. Performance of global look-up table strategy in digital image correlation with cubic B-spline interpolation and bicubic interpolation. Theoretical and Applied Mechanics Letters 2016; 6(3): 126-130.12. Zhang LQ, Wang TY, Jiang ZY*, Kemao Q*, Liu YP, Liu ZJ, Tang LQ, Dong SB. High accuracy digital image correlation powered by GPU-based parallel computing. Optics and Lasers in Engineering 2015; 69: 7-12.13. Jiang ZY*, Kemao Q*, Miao H, Yang JL, Tang LQ. Path-independent digital image correlation with high accuracy, speed and robustness. Optics and Lasers in Engineering 2015; 65: 93-102.14. Zhang QC*, Jiang ZY, Jiang HF, Chen ZJ, Wu XP. On the propagation and pulsation of Portevin-Le Chatelier deformation bands: An experimental study with digital speckle pattern metrology. International Journal of Plasticity 2005; 21(11):2150-2173.- II - 多尺度复合材料和纳米复合材料力学性质15. He K, Liao HC, Liu ZJ, Liu YP, Tang LQ, Yang B, Zhou LC*, Jiang ZY*. Reinforcing efficiency of nanophases with various geometric shapes on interfacial bonding in multiscale composites. Composites Part A: Applied Science and Manufacturing 2023; 165:107369.16. Liu C, Lin JX, Tang LQ, Liu ZJ, Jiang ZY*, Lian KQ*. Design of metal-polymer structure for dental implants with stiffness adaptable to alveolar bone. Composites Communications 2021; 24:100660.17. Chen W, Liu YP*, Jiang ZY*, Tang LQ, Liu ZJ, Zhou LC. Modeling of compressive strength for unidirectional fiber reinforced composites with nanoparticle modified epoxy matrix. Materials 2019;12(23):3897.18. Li W, Chen W, Tang LQ, Jiang ZY*, Huang PY*. A general strength model for fiber bundle composites under transverse tension or interlaminar shear. Composites Part A: Applied Science and Manufacturing 2019; 121:45-55.19. Yu B, Li XT, An JL, Jiang ZY*, Yang JL*. Interfacial and glass transition properties of surface-treated carbon fiber reinforced polymer composites under hygrothermal conditions. Engineered Science 2018; 2:67-73.20. Yu B, He PG, Jiang ZY*, Yang JL*. Interlaminar fracture properties of surface treated Ti-CFRP hybrid composites under long-term hygrothermal conditions. Composites Part A: Applied Science and Manufacturing 2017; 96: 9-17.21. Jiang ZY*, Zhang H*, Han JF, Liu ZJ, Liu YP, Tang LQ. Percolation model of reinforcement efficiency for carbon nanotubes dispersed in thermoplastics. Composites Part A 2016; 86:49-56.22. Yu B, Jiang ZY, Yang JL*, Long-term moisture effects on the interfacial shear strength between surface treated carbon fiber and epoxy matrix. Composites Part A: Applied Science and Manufacturing 2015; 78:311-317.23. Yu B, Jiang ZY*, Tang XZ, Yue CY, Yang JL*. Enhanced interphase between epoxy matrix and carbon fiber with carbon nanotube-modified silane coating. Composites Science and Technology 2014; 99:131-136.24. Jiang ZY*, Hornsby P, McCool R, Murphy A. Mechanical and thermal properties of polyphenylene sulphide/multi-walled carbon nanotube composites. Journal of Applied Polymer Science 2012; 123(5):2676-2683.25. Jiang ZY*, Siengchin S, Zhou LM, Steeg M, Karger-Kocsis J, Man HC. Poly (butylene terephthalate)/silica nanocomposites prepared from cyclic butylene terephthalate. Composites Part A: Applied Science and Manufacturing 2009; 40(1):273-278.26. Jiang ZY, Zhang H, Zhang Z*, Murayama H, Okamoto K. Improved bonding between PAN-based carbon fibers and fullerene-modified epoxy matrix. Composites Part A: Applied Science and Manufacturing 2008; 39(11):1762-1767.27. Jiang ZY*, Gyurova LA, Friedrich K, Schlarb AK, Zhang Z. Study on friction and wear behavior of polyphenylene sulfide composites reinforced by short carbon fibers and sub-micro TiO2 particles. Composites Science and Technology 2008; 68(3-4):734-742.28. Jiang ZY, Gyurova LA, Zhang Z*, Friedrich K, Schlarb AK. Neural network based prediction on mechanical and wear properties of short fibers reinforced polyamide composites. Materials & Design 2008; 29(3):628-637.29. Jiang ZY, Zhang Z*, Friedrich K. Prediction on wear properties of polymer composites with artificial neural networks. Composites Science and Technology 2007; 67(2):168-176.- III - 先进工程材料研制和力学模型30. Peng C, Liu C, Liao ZH, Yang B, Tang LQ, Yang L*, Jiang ZY*. Automatic 3D image based finite element modelling for metallic foams and accuracy verification of digital volume correlation. International Journal of Mechanical Sciences. 2022; 235:107715.31. Ma DP, Liu C, Zhu HB, Liu YP*, Jiang ZY*, Liu ZJ, Zhou LC, Tang LQ. High fidelity 3D mesoscale modeling of concrete with ultrahigh volume fraction of irregular shaped aggregate. Composite Structures 2022; 291:115600.32. Li XH, Ma DP, Lu ZM, Liu YP*, Jiang ZY*, Tang LQ, Liu ZJ, Zhou LC. Experimental study of hygrothermal and ultraviolet aging on the flexural performance of epoxy polymer mortar. Acta Mechanica Solida Sinica 2021; 24(4):539-549.33. Ma DP, Liang ZM, Liu YP*, Jiang ZY*, Liu ZJ, Zhou LC, Tang LQ. Mesoscale modeling of epoxy polymer concrete under tension or bending. Composite Structures 2021; 256:113079.34. Ma DP, Pan ZW, Liu YP*, Jiang ZY*, Liu ZJ, Zhou LC, Tang LQ. Residual flexural performance of epoxy polymer concrete under hygrothermal conditions and ultraviolet aging. Materials 2019; 12(21):3472.35. Lin JX, Zhang G, Jiang ZY*, Tang LQ, Lian KQ. Evaluation of biomechanical health degree of peri-implant bone through finite element analysis: A first approach. International Journal of Applied Mechanics 2018; 10(9)-1850097.36. Hu B, Zhang NL, Liao YT, Pan ZW, Zhou LC, Liu ZJ*, Jiang ZY*. Enhanced flexural performance of epoxy polymer concrete with short natural fibers. Science China Technological Sciences 2018; 61(8):1107-1113.37. Ma DP, Liu YP, Zhang NL, Jiang ZY*, Tang LQ, Xi HF*. Micromechanical modeling of flexural strength for epoxy polymer concrete. International Journal of Applied Mechanics 2017; 9(8): 1750117.38. Liu YP, Ma DP, Jiang ZY*, Xiao F, Huang XX, Liu ZJ, Tang LQ. Dynamic response of expanded polystyrene concrete during low speed impact. Construction and Building Materials 2016; 122: 72-80.39. Yang B, Liu ZJ, Tang LQ, Jiang ZY*, Liu YP. Mechanism of the Strain Rate Effect of Metal Foams with Numerical Simulations of 3D Voronoi Foams during the Split Hopkinson Pressure Bar Tests. International Journal of Computational Methods 2015; 12(4): 1540010.40. Zhang XY, Tang LQ, Jiang ZY*, Liu ZJ, Liu YP, Fang DN. Effects of Meso Shape Irregularity of Metal Foam on Yield Features under Triaxial Loading. International Journal of Structural Stability and Dynamics 2015; 15(7): 1540014.41. Jiang ZY, Zhang QC*, Jiang HF, Chen ZJ, Wu XP. Spatial characteristics of the Portevin-Le Chatelier deformation bands in Al-4 at%Cu polycrystals. Materials Science and Engineering A 2005; 43(1-2):154-164.42. Zhou GY*, Jiang ZY. Deformation in magnetorheological elastomer and elastomer-ferromagnet composite driven by a magnetic field. Smart Materials & Structures 2004; 13(2):309-316. 出版专著和教材 1. Jiang ZY, Zhang Z. Wear of Mult-scale Phase Reinforced Composites. In ed. Davim JP. Tribology of Nanocomposites: Materials Forming, Machining and Tribology. Springer-Verlag (Germany). 2013.2. Jiang ZY. Mechanical and Wear Properties of Multi-scale Phase Reinforced Composites. In ed. Davim JP, Charitidis CA. Nanocomposites: Materials, Manufacturing and Engineering. De Gruyter (Germany). 2013. 科研创新 1. 中国发明专利,一种基于GPU并行加速的实时三维变形测量方法,专利申请日:2021/03/29,授权日:2023/04/21,ZL202110333748.3,排名第三2. 中国发明专利,一种基于图像特征增强数字体图像相关法的变形测量方法,专利申请日:2021/01/13,授权日:2023/03/21,ZL202210034810.3,排名第三3. 中国发明专利,一种基于桩锤激震和决策树模型的地下溶洞探测方法,专利申请日:2019/07/19,授权日:2020/11/17,ZL201910653024.X,排名第十4. 中国发明专利,通过圆柱体侧向压缩力位移响应确定材料参数的方法,专利申请日:2018/05/28,授权公告日:2019/10/18,ZL201810521081.8,排名第六5. 中国发明专利,一种不封闭交通的公路桥面图像获取方法,专利申请日:2015/06/16,授权公告日:2018/04/13,ZL201510332329.2,排名第二6. 中国发明专利,一种用于霍普金森压杆的双子弹电磁驱动装置,专利申请日:2015/11/20,授权公告日:2018/02/27,ZL201510815296.7,排名第五7. 中国发明专利,基于数字图像的分离式霍普金森压杆实验的同步测量方法,专利申请日:2014/09/17,授权公告日:2016/10/05,ZL201410476610.9,排名第五8. 中国实用新型专利,一种用于霍普金森压杆的双子弹电磁驱动装置,专利申请日:2015/11/20,授权公告日:2016/05/04,ZL201520937621.2,排名第五9. 中国实用新型专利,一种泡沫铝加肋夹芯板,专利申请日:2014/08/19,授权公告日:2014/12/31,ZL201420468599.7,排名第五10. 中国软件著作权,工程物流决策系统,申请日:2015/01/08,授权日:2015/04/27,2015SR69816,排名第六11. 中国软件著作权,基于轨道仿真的卫星效能评估与优化平台软件,申请日:2013/08/10,授权日:2014/05/07,2014SR056048,排名第六 教学活动 主讲两门校级全英课程:《塑性力学》(工程力学创新班)和《理论力学》(土木卓越全英班)。2017年获英国文化教育协会和英国总领事馆文化处全英授课(EMI)培训认证。主讲课程:1. 2018年至今,本科生《实验力学》,48学时2. 2017年至今,研究生《现代测试技术》,32学时3. 2012年至今,本科生《塑性力学》,48学时4. 2012-2018年,本科生《理论力学》,64学时5. 2012年,本科生《材料力学》,72学时 指导学生情况 2012-2015,刘奇,硕士,就业单位:金地集团(深圳)2014-2017,李稳,硕士,就业单位:英国牛津大学(University of Oxford),博士后2015-2018,方奕欣,硕士,就业单位:中海地产集团(汕头)2015-2018,林俊雄,硕士,毕业去向:加拿大西安大略大学(Western University),博士研究生2015-2018,潘志伟,硕士,就业单位:数说故事(广州)2015-2018,黄建文,硕士(合作培养),就业单位:商汤科技(深圳)2012-2018,陈蔚,博士(直博,合作培养),就业单位:美的集团(佛山)2017-2020,杨俊荣,硕士(合作培养),就业单位:腾讯(深圳)2016-2021,马东鹏,博士(合作培养),就业单位:广东工业大学(广州)2017-2021,廖焕臣,硕士,就业单位:中航通用飞机(珠海)2018-2021,刘畅,硕士,就业单位:开立生物医疗(深圳)2018-2021,朱孟轩,硕士,毕业去向:华中科技大学(武汉),博士研究生2018-2021,林傲宇,硕士(合作培养),就业单位:中国南方电网(广州)2020-2023,左乾江,硕士(合作培养),就业单位:深信服科技(深圳)