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顾鑫职称: 副教授 硕士生导师 部门: 力学与工程科学学院党委 力学与工程科学学院 学科: 力学 教学部门: 力学与工程科学学院党委、力学与工程科学学院 电话: 15365002545 邮件: xingu@hhu.edu.cn 办公地址: 河海大学江宁校区乐学楼 通讯地址: 江苏省南京市江宁区佛城西路8号,河海大学力学与材料学院 邮编: 211100 |
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个人简介顾鑫,江苏连云港人,博士、副教授、硕士生导师。 主要从事计算力学理论与新型数值方法、近场动力学和非局部理论、多场耦合下材料与结构破坏分析等相关科学研究;主讲研究生《有限单元法》和本科生《弹性力学及有限单元法》、《弹性力学》、《理论力学》、《工程力学》等课程。主持负责科研项目6项(国家自然科学基金重点项目子题1项、国家自然科学基金青年项目1项、中国博士后基金面上项目1项、河海大学中央高校业务费项目3项),以项目骨干身份参加科研项目12项,包括国家自然基金重点项目2项、面上项目7项、国家重点研发计划课题2项、江苏省自然科学基金面上项目1项。 由科学出版社出版《近场动力学——理论、模型与应用》专著1部;在固体力学、计算力学、断裂力学等领域重要期刊和学术会议Computer Methods in Applied Mechanics and Engineering、International Journal for Numerical Methods in Engineering、Engineering Fracture Mechanics、Composite Structures、Acta Mechanica Solida、Engineering with Computers、Engineering Computations、Construction and Building Materials、Ocean Engineering、Acta Geotechnica、力学进展、力学学报、振动与冲击等发表论文62篇(40篇SCI、7篇EI、14篇中文核心、1篇国际会议),在国内外重要学术会议上做报告30余次,授权或申请发明专利4项、软件著作权13项。 研究成果获得了国内外同行认可与好评:博士论文获2020年度河海大学与江苏省优秀博士学位论文。Google Scholar引用1100余次,单篇最高引用135次,H指数为18。2016年发表在力学学报的论文为CNKI高被引论文;2015-2019年计算力学学报高影响力论文(共10篇);计算力学顶刊IJNME的2018年最高下载论文之一;研究成果得到知名学者Wriggers、Silling、Madenci、Bobaru、Galvanetto等积极评价。担任CMAME、IJNME、EFM、JPER、AMSS、EWCO、CMES、力学学报、固体力学学报、计算力学学报、工程力学、应用数学和力学、力学季刊等30余期刊审稿人。 l教育与工作经历7.2023/10至今, 河海大学力学与工程科学学院,副教授 6.2021/01—2023/10,河海大学力学与材料学院,副研究员、副教授 5.2020/11—2021/01,河海大学力学与材料学院,讲师 4.2018/12—2020/11,河海大学力学博士后流动站,师资博士后 3.2016/10—2018/09,美国亚利桑那大学航空与机械系,国家公派联合培养博士生/访问学者 2.2013/09—2018/12,河海大学力学与材料学院工程力学系,工学博士(直博) 1.2009/09—2013/06,河海大学工程力学系,工学学士 l教学情况1.有限单元法(研究生,2021~2024学年春学期) 2.弹性力学及有限单元法(本,2023、2024学年春学期) 3.弹性力学(本,2024年秋学期) 4.计算力学(本,2024年春学期) 5.理论力学(本,2021~2024学年秋学期) 6.工程力学(本,2021学年秋学期) l主要研究方向计算力学理论与新型数值方法、近场动力学与非局部理论、材料与结构破坏的多场多尺度力学、水利土木能源工程中的力学问题分析 l科研项目主持: 7. JG项目,2023/05-2025.05,在研,子题负责 6. 国家自然科学基金重点项目,11932006,高寒区水工混凝土结构冻融破坏的非局部近场动力学模型与跨尺度数值模拟,2020/01-2024/12,在研,子题主持 5. 国家自然科学基金青年项目,12002118,土体大变形破坏分析的近场动力学水土耦合模型与算法研究,2021/01-2023/12,结题,主持 4. 中国博士后面上项目,2019M651667,非常规态型近场动力学的数值稳定性与动态断裂模拟研究,2019/06-2020/12,结题,主持 3. 河海大学中央高校科研业务费项目,B210201031,载荷-环境条件下混凝土力学性能与破坏行为的跨尺度建模与仿真分析,2021/01-2023/12,结题,主持 2. 河海大学中央高校科研业务费项目,B200202231,混凝土冷热冲击破裂的热力耦合的近场动力学建模与分析,2020/01-2021/12,结题,主持 1. 河海大学中央高校科研业务费项目,2014B31814,(江苏省研究生科研创新计划项目KYLX_0420),基于近场动力学状态理论的混凝土本构模型与破坏分析,2014/06-2016/12,结题,主持 l主要论著注:#为第一作者,*为通讯作者 1.章青,顾鑫. 近场动力学——理论、模型与应用[M]. 北京:科学出版社,2024.01. 43. Weifan Lv#, Guangda Lu, Xiaozhou Xia*, Xin Gu, Qing Zhang*. Discrepancy-informed Quadrature Strategy for the Nonlocal Macro-Meso-Scale Consistent Damage Model. Computer Methods in Applied Mechanics and Engineering. 2024: 117315. (accepted) 42. Xin Gu#, Laike Song, Xiaozhou Xia*, Cheng Yu. Finite element method - peridynamics coupled analysis of slope stability affected by rainfall erosion.Water, 2024,16(15), 2210. 41. Xinmiao Wang#, Feng Xue#, Xin Gu, Xiaozhou Xia*. Simulation of frost heave failure of air-entrained concrete based on thermal-hydraulic-mechanical coupling model. Materials, 2024,17(15):3727. 40. Xiaozhou Xia, Xinxiang Xu, Xin Gu*, Qing Zhang An efficient seepage element containing drainage pipe. Water, 2024, 16(10):1440. 39. Xiaozhou Xia#, Xiang Wang, Guangda Lu, Xin Gu*, Weifan Lv, Qing Zhang, Liangzhu Ma. A new nonlocal macro-micro-scale consistent damage model for layered rock mass. Theoretical and Applied Fracture Mechanics, 2024;133:104540. 38. Xing Li#, Xin Gu, Xiazhou Xia, Erdogan Madenci, Aijiu Chen, Qing Zhang*. Peridynamic simulation of micro-internal damage and macro-mechanical properties of cement paste under freeze-thaw cycles. Journal of Building Engineering. 2024;93:109759. 37. Panyong Liu#, Xin Gu#, Yang Lu, Xiazhou Xia, Erdogan Madenci*, Qing Zhang*. A coupled hygro-mechanical model for moisture diffusion and curling mechanism in saturated and unsaturated soil using ordinary state-based peridynamics. Computers and Geotechnics. 2024;172:106473. 36. Hanwei Zhou, Feng Shen*, Xin Gu*, Bingyi Li. Regularization effect of peridynamic horizon on strain localization and soil slope instability analysis. Engineering Analysis with Boundary Elements. 2024;165:105774. 35. Xiaozhou Xia, Xinxiang Xu, Xin Gu*, Qing Zhang An efficient seepage element containing drainage pipe. Water, 2024,16:1440. 34. Tianyi Li#, Xin Gu, Qing Zhang*. A coupled thermomechanical crack propagation behavior of brittle materials by peridynamic differential operator. CMES: Computer Modeling in Engineering & Sciences. 2024;140(1):339-361. 33. Weifan Lv#, Guangda Lu, Xiaozhou Xia*, Xin Gu, Qing Zhang. Energy Degradation Mode in Nonlocal Macro-Meso-Scale Damage Consistent Model for Quasi-brittle Materials.Theoretical and Applied Fracture Mechanics. 2024;130:104288 32.Xuandong Chen#, Xin Gu, Panyong Liu, Jiamin Zhang, Xiaozhou Xia, Qing Zhang*. Peridynamic model for chloride diffusion-reaction in concrete reflecting mesostructure characteristic. International Journal of Fracture, 2024;245:121–135. 31.Xiaozhou Xia*, Changsheng Qin, Guangda Lu, Xin Gu*, Qing Zhang. An extended fracture phase field method for simulation of the corrosion-induced cracking of reinforced concrete. CMES: Computer Modeling in Engineering & Sciences, 2024;138(3)2257-2276. 30.Yanan Zhang#, Erdogan Madenci*, Xin Gu, Qing Zhang. A coupled hydro-mechanical peridynamic model for unsaturated seepage and crack propagation in unsaturated expansive soils due to moisture change. Acta Geotechnica, 2023;18:6297-6313. 29. Panyong Liu#, Xin Gu#, Yang Lu, Xiazhou Xia, Erdogan Madenci*, Qing Zhang*. Peridynamics for mechanism analysis of soil desiccation cracking: coupled hygro-mechanical model, staggered and monolithic solution. Computer Methods in Applied Mechanics and Engineering. 2023;406:115896. (IF: 6.588,WOS:000925556600001) 28. Renjie Teng#, Xin Gu, Xiaozhou Xia, Qing Zhang*. Numerical simulation of frost-heave deformation of concrete-lined canal considering thermal-hydro-mechanical coupling effect. Water. 2023;15:1412. 27. Xiaobing Wang#, Xiaozhou Xia, Renjie Teng, Xin Gu, Qing Zhang*. Risk assessment of dike based on risk chain model and fuzzy influence diagram. Water, 2023;15(1), 108(IF: WOS:) 26. Xiaobing Wang#, Xiaozhou Xia, Xue Zhang, Xin Gu, Qing Zhang*. Probabilistic assessment of slope stability subjected to water drawdown by finite element limit analysis. Applied Sciences. 2022;12:10282. (IF: 2.838; WOS:000872224400001) 25. Xing Li#, Xin Gu#, Xiaozhou Xia, Erdogan Madenci, Xuandong Chen, Qing Zhang*. Effect of water-cement ratio and size on tensile damage in hardened cement paste: Insight from peridynamic simulation. Construction and Building Materials. 2022;356:129256. (IF: WOS:) 24. Xin Gu#, Xing Li#, Xiaozhou Xia, Erdogan Madenci*, Qing Zhang*. A robust peridynamic computational framework for predicting mechanical properties of porous quasi-brittle material. Composite Structures. 2023;303:116245. (IF:6.603, WOS:000867680600004) 23. Fei Yang#, Xin Gu#, Xiaozhou Xia, Qing Zhang*. A peridynamics-immersed boundary-lattice Boltzmann method for fluid-structure interaction analysis. Ocean Engineering. 2022; 264:112528 (IF: 4.372, WOS:000875717900003) 22. Tianyi Li#, Xin Gu, Qing Zhang*. A peridynamic differential operator-based model for quantifying spatial non-local transport behavior of pollutants in heterogeneous media. Water, 2022.14(16):2455. (IF=3.53, WOS:000845378600001) 21. Jia Zheng#, Feng Shen*, Xin Gu, Qing Zhang. Simulating failure behavior of reinforced concrete T-beam under impact loading by using peridynamics. International Journal of Impact Engineering. 2022, 165(12): 104231. (IF=4.592,WOS:000791771200001) 20. Siyang Yang#, Xin Gu#, Xiaozhou Xia, Qing Zhang*. Explosion damage analysis of concrete structure with bond-associated non-ordinary state-based peridynamics. Engineering with Computers. 2022, (IF=8.083, WOS:000769535500001) 19. Xuandong Chen#, Xin Gu#, Xiazhou Xia, Xing Li, Qing Zhang*. A Chemical-Transport-Mechanics Numerical Model for Concrete under Sulfate Attack. Materials, 2021.14, 7710. (IF=3.623, WOS:000738293000001) 18. Xiaozhou Xia*, Fei Chen, Xin Gu*, Ningzhi Fang, Qing Zhang. Interfacial Debonding Constitutive Model and XFEM Simulation for Mesoscale Concrete. Computers & Structures. 2021;242:106373. (IF=3.664, WOS:000580652800008) 17. Siyang Yang#, Xin Gu#, Qing Zhang*, Xiaozhou Xia. Bond-associated Non-ordinary State-based Peridynamic Model for Multiple Spalling Simulation of Concrete. Acta Mechanica Sinica. 2021.https://doi.org/10.1007/s10409-021-01055-5. (IF=1.897, WOS:000627222700003) 15. Feng Shen*, Yangtian Yu, Qing Zhang, Xin Gu. Hybrid model of peridynamics and finite element method for static elastic deformation and brittle fracture analysis. Engineering Analysis with Boundary Elements. 2020,113:17-25. (IF=2.243, WOS:000518874200003) 14. Tianyi Li#, Xin Gu#, Qing Zhang*, Xiaozhou Xia. Elastoplastic constitutive modeling for reinforced concrete in ordinary state-based peridynamics. Journal of Mechanics, 2020,36(6):799-811. (IF=1.293, WOS:000598463500008) 13. Tianyi Li#, Xin Gu, Qing Zhang*, Dong Lei. Coupled digital image correlation and peridynamics for full-field deformation measurement and local damage prediction. CMES: Computer Modeling in Engineering & Sciences, 2019,121(2):425-444. (IF=0.805, WOS:000499089500005) 12. Xin Gu#, Qing Zhang*. A modified conjugated bond-based peridynamic analysis of impact failure for concrete gravity dam. Meccanica, 2020,55:547-566. (IF=2.153, WOS: 000516203500001). 11. Xin Gu#, Qing Zhang*, Erdogan Madenci*, Xiaozhou Xia. Possible causes of numerical oscillation in non-ordinary state-based peridynamics and a bond-associated higher-order stabilized model. Computer Methods in Applied Mechanics and Engineering, 2019;357:112592. (IF=5.763, WOS: 000490427600037). 10. Erdogan Madenci*, Mehmet Dorduncu, Nam Phan, Xin Gu. Weak form of bond-associated non-ordinary state-based peridynamics free of zero energy modes with uniform or non-uniform discretization. Engineering Fracture Mechanics, 2019;218:106613. (IF=3.426, WOS:000483383200034) 9. Erdogan Madenci*, Mehmet Dorduncu, Xin Gu. Peridynamic least squares minimization. Computer Methods in Applied Mechanics and Engineering, 2019, 348:846-874. (IF:4.441,WOS:000462472400032) 8. Xin Gu#, Qing Zhang*, Erdogan Madenci. Refined bond-based peridynamics for thermal diffusion. Engineering Computations, 2019, 36(8):2557-2587. (IF:1.322, WOS:000490289000004). 7. Xin Gu#, Qing Zhang*, Erdogan Madenci. Non-ordinary state-based peridynamic simulation of elastoplastic deformation and dynamic cracking of polycrystal. Engineering Fracture Mechanics, 2019:218:106568. (IF=3.426, WOS:000483383200007). 6. Xin Gu#, Erdogan Madenci*, Qing Zhang. Revisit of non-ordinary state-based peridynamics. Engineering Fracture Mechanics, 2018,190:31-52. (IF:3.426, WOS:000425221700003) 5. Xin Gu#, Qing Zhang*, Xiaozhou Xia.Voronoi-based Peridynamics and Cracking Analysis with Adaptive Refinement. International Journal for Numerical Methods in Engineering, 2017,112(13):2087-2109. (IF: 2.162, WOS:000416156700009) 4. Xin Gu#, Qing Zhang*, Yangtian Yu. An effective way to control numerical instability of a nonordinary state-based peridynamic elastic model. Mathematical Problems in Engineering, 2017(2017). (IF:1.145, WOS:000396223000001) 3. Xin Gu#, Qing Zhang*, Dan Huang, Yangtian Yv. Wave Dispersion Analysis and Simulation Method for Concrete SHPB Test in Peridynamics. Engineering Fracture Mechanics, 2016.160:124-137. (IF:2.024,WOS:000374337000009) 2. Qing Zhang*, Xin Gu, Yangtian Yu, Dan Huang. A new mixed model for peridynamics-finite element method and its application in static cracking problems [C].14th International Conference on Fracture, ICF 2017, 2017,2:201-202.(EI检索号:20192206974469) 1. Qing Zhang*, Xin Gu, Dan Huang. Failure analysis of plate with non-uniform arrangement holes by ordinary state-based peridynamics [C]. 6th International Conference on Computational Methods (ICCM2015), 14-17th July, Auckland, New Zeland. 19. 刘攀勇#,顾鑫,章青*. 非饱和土干缩开裂分析的近场动力学模拟. 应用数学和力学. 2024;45(1):823-834. 18. 张浩#, 田霞, 顾鑫, 章青*. 基于粗粒化分子动力学的水化硅酸钙孔隙水冻结模拟. 计算力学学报. 2024,41(1):194-201. 17. 成嘉禾#,顾鑫,章青*. 基于键型近场动力学非连续伽辽金有限元法的爆炸毁伤模拟. 应用数学和力学. 2023,44(4):394-405. 16. 李星#, 顾鑫, 夏晓舟, 陈爱玖, 章青*. 考虑相变的近场动力学热-力耦合模型及多孔介质冻结破坏模拟. 力学学报,2022,54(12):3310-3318.(EI检索号:) 15. 陈宣东#,章青*,顾鑫,夏晓舟,许骁波,邱森烨.钢筋非均匀锈蚀诱发无砟轨道混凝土轨道板的开裂分析. 铁道建筑,2022,62(12):40-45. 14. 陈宣东#,章青*,顾鑫,夏晓舟,林其武. 疲劳载荷作用下无砟轨道混凝土轨道板碳化行为的数值模拟. 铁道建筑,2022,62(12):17-22. 13. 陈宣东#,章青*,顾鑫,李星. 基于概率分析的钢筋混凝土结构服役寿命预测研究. 中国腐蚀与防护学报, 2021, 41(5): 673-678. 12. 顾鑫#,章青*,Erdogan Madenci. 多物理场耦合作用分析的近场动力学理论与方法.力学进展,2019,49(1): 576-598.(EI检索号:20192707133031) 11. 沈峰*,章青,顾鑫. 弹丸侵彻混凝土靶板破坏过程的近场动力学模拟. 重庆大学学报, 2019,42(1):64-69. 10. 郭士强#,夏晓舟,顾鑫,章青*. 混凝土细观破坏过程的近场动力学模拟.河南科学, 2019,37(7):1122-1128. 9. 李天一#,章青*,夏晓舟,顾鑫. 考虑混凝土材料非均质特性的近场动力学模型. 应用数学和力学, 2018, 39(8):913-924. 8. 顾鑫#,章青*. 爆炸荷载作用下大坝破坏分析的数值模拟研究进展. 河海大学学报(自然科学版), 2017,45 (1):45-55. 7. 郁杨天#,章青*,顾鑫. 近场动力学微极模型在求解静力学问题中的应用. 力学季刊, 2017, 38(1): 50-57. 6. 郁杨天#,章青*,顾鑫. 近场动力学与有限元的混合模型与隐式求解格式. 浙江大学学报(工学版),2017, 51(7): 1324-1330.(EI检索号:20173504092487) 5. 章青*,郁杨天,顾鑫. 近场动力学与有限元的混合建模方法. 计算力学学报, 2016, 33(4):441-448, 450. 4. 郁杨天#,章青*,顾鑫. 含单边缺口混凝土梁冲击破坏的近场动力学模拟.工程力学,2016, 33(12)::80-85.(EI检索号:20170103216376) 3. 章青*, 顾鑫, 郁杨天. 冲击荷载作用下颗粒材料动态力学响应的近场动力学模拟. 力学学报, 2016, 48(1): 56-63.(EI检索号:20161202132840) 2. 顾鑫#,章青*,黄丹. 基于近场动力学方法的混凝土板侵彻问题研究. 振动与冲击. 2016, 35 (6): 52-58.(EI检索号:20161502242635) 1. 沈峰#,章青*,黄丹,顾鑫. 基于近场动力学方法的结构准静态变形的定量计算. 重庆大学学报, 2016, 39(5): 49-55. l会议报告/学术交流24.章青,顾鑫(代报告),夏晓舟,李星,戈雪良,柯敏勇,王珩. 极端环境下高寒区水工混凝土材料和结构的冻融破坏分析. 极端环境下先进材料与结构力学学术会议. 2023.11.17-2023.11-19,中国湖北武汉 23.顾鑫*,周瀚威,沈峰. 土体剪切带与边坡稳定性的近场动力学分析. 第五届江苏湖北浙江三省力学学术会议. 2023.09.22-2023.09.24, 中国江苏徐州. (邀请报告) 21.顾鑫*,李星,陈宣东,夏晓舟,章青. 基于近场动力学的水泥净浆拉伸断裂模拟与力学性能预测. 第13届南方计算力学学术会议. 2023.05.19-2023.05.21. 中国广州 (报告) 20. 刘攀勇,顾鑫*,章青*. 土体干缩开裂分析的湿-力耦合近场动力学模型与算法. 第三届无网格粒子类方法进展与应用研讨会,2022.08.20-2022.08.23,中国南宁.(博士生刘攀勇获优秀学生论文奖,共4人) 19. 刘攀勇,顾鑫*,鲁洋,夏晓舟,章青*. 土体干缩开裂的近场动力学湿-力耦合模型与高效算法. 江苏青年力学论坛2022. 2022.08.16-2022.08.17. 中国南京. (报告) 18. 顾鑫,杨思阳,夏晓舟,章青.基于键关联非常规态型近场动力学模型的冲击爆炸模拟. 第三届无网格粒子类方法进展与应用研讨会,2022.08.20-2022.08.23,中国南宁. (报告) 17. 顾鑫. 非常规态型近场动力学模型的微分算子重构及应用. 江苏青年力学论坛2022. 2022.08.16-2022.08.17. 中国南京. (报告) 16. 顾鑫,李星,陈皖旱,夏晓舟,章青. 水泥基材料破坏分析的近场动力学理论与方法. 数值流形与多学科交叉创新2021学术研讨会,2022.01.09,南京. (报告) 15. 顾鑫. 强动载作用下混凝土结构毁伤破坏的近场动力学模拟. 江苏力学大会2021-江苏力学青年论坛2021. 2021.12.04 (线上报告) 14. 顾鑫,杨思阳,章青,夏晓舟. 基于键关联非常规态型近场动力学方法的混凝土层裂模拟[C]. 2021损伤与断裂力学及其工程应用研讨会. 2021.05.21-2021.05.23,中国武汉(报告、摘要) 13. 顾鑫,章青,夏晓舟. 晶体弹塑性变形与动态断裂的近场动力学建模分析[C]. 中国工业与应用数学学会第十八届年会(CSIAM 2020)——主题研讨会:非局部理论和多尺度方法. 2020.10.29-2020.11.01,中国长沙. (报告、摘要) 12. 顾鑫. 非常规态型近场动力学的模型改进与应用分析.2019数值流形研讨会. 2019.12.01,中国南京.(报告) 10. Xin Gu, Qing Zhang*, Erdogan Madenci. Significance of nonlocality in dynamic cracking simulation of polycrystal: insight from peridynamics [C]. Second International Conference on Mechanics of Advanced Materials and Structures (ICMAMS 2019), Nanjing, 2019.10.19~2019.10.22, 中国南京. (报告、摘要) 10. 顾鑫,章青,夏晓舟,Erdogan Madenci.非常规态型近场动力学数值振荡原因与键关联高阶修正稳定模型[C]. 2019年中国力学大会(The Chinese Congress of Theoretical and Applied Mechanics, CCTAM 2019). 2019.08.25~2019.08.28, 中国杭州.(报告、摘要) 9. Xin Gu, Qing Zhang*, Erdogan Madenci, Yuan Wang. Thermal Conduction Analysis in Mesoscale Concrete with Refined Bond-Based Peridynamics [C] 15th US National Congress on Computational Mechanics (USNCCM15) , 2019.7.28~2019.8.2, Austin, USA.(报告、摘要) 8. 顾鑫,章青,Erdogan Madenci. 基于近场动力学微分算子的热传导模型 [C].2018年全国固体力学学术会议2018 National Conference on Solid Mechanics. 2018.11.23~2018.11.25, 中国哈尔滨.(报告、摘要) 7. Xin Gu, Qing Zhang, Erdogan Madenci. Peridynamic Analysis of Impact Failure for Concrete Gravity Dam [C]. The 13th World Congress in Computational Mechanics, and 2nd Pan American Congress on Computational Mechanics, 22th-26th July, 2018. New York, USA. (报告、摘要) 6. Xin Gu, Erdogan Madenci, Qing Zhang. Elastic contact analysis with refined non-ordinary state-based peridynamics [C]. 18th U.S. National Congress for Theoretical and Applied Mechanics, 4th-9th July, 2018. Chicago, Illinois, USA. (报告、摘要) 5. Xin Gu, Erdogan Madenci, Qing Zhang. A refined non-ordinary state-based peridynamics [C]. ASME 2017 International Mechanical Engineering Congress & Exposition (IMECE), 5th-9th November, 2017, Tampa, Florida, USA.(报告、摘要) 4. Xin Gu, Qing Zhang, Dan Huang. A Non-ordinary State-based Peridynamics Formulation Corresponding to HJC Concrete Model [C]. 12th World Congress on Computational Mechanics (WCCM XII) and 6th Asia-Pacific Congress on Computational Mechanics (APCOM VI), 24-29th July, 2016. Seoul, South Korea.(报告、摘要) 3. 顾鑫,章青,黄丹. 混凝土板侵彻破坏的近场动力学模拟. [C]// 中国力学大会-2015论文摘要集. 2015.08.15~2015.08.18. 中国上海.(报告、摘要) 2. 顾鑫,章青,黄丹. 基于常规状态近场动力学理论的含孔板破坏分析. [C]// 中国力学大会-2015论文摘要集. 2015.08.15~2015.08.18. 中国上海.(报告、摘要) 1. 顾鑫. 基于键作用的近场动力学方法初步研究. 河海大学第四届研究生学海争峰学术年会.2015.11.(报告) 5. 2023.06——Institute of Geotechnical Engineering (IGT), University of Natural Resources and Life Sciences Vienna (BOKU) 4. 2021.11——西北工业大学数学与统计学院 3. 2020.01——苏州科技大学土木工程学院,中国苏州 2. 2019.11——第十二届南方计算力学学术会议 (SCCM-12),中国武汉 1. 2019.01——近场动力学理论与多尺度方法讨论班,北京中科院数学与系统科学研究所,中国北京 l荣誉与获奖8. 河海大学2023年度考核优秀 7. 2023年第十四届全国周培源大学生力竞赛,二等奖、三等奖指导教师 6. 2020年江苏省优秀博士学位论文,2020.12 5. 2020年河海大学优秀博士学位论文,2020.05 4. 《计算力学学报》2015年-2019年高影响力论文,2020 3. Top download article 2017-2018, International Journal for Numerical Methods in Engineering, 2018 2. WCCM-PANACM2018会议旅行奖学金资助,IACM,2018.04 1. 2016年度国家公派留学奖学金,国家留学基金委,2016 个人资料
教育经历工作经历研究领域计算力学理论与新型数值方法 近场动力学与非局部理论 材料与结构破坏的多物理场多尺度力学 水利土木能源工程中的力学问题分析 科研项目论文
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教学成果教学资源社会职务l学术兼职学会会员8. 江苏省重大基础设施安全保障协同创新中心,创新团队成员 7. 计算力学学报青年编委(2024~) 6. 应用数学和力学青年编委(2023~2027) 5. 应用力学学报青年编委(2022~2024) 4. 江苏省力学学会青年工作委员会委员(2022~2026) 3. 近场动力学与非局部理论国际研究中心(Research Center of Peridynamics and Nonlocal theory),执行委员会秘书(2019~) 2. 中国力学学会会员/江苏省力学学会会员(2019~) S031805403M 1. 中国工业与应用数学学会会员(2020~) 1800705M 学术会议组织委员会成员6.第三届“计算力学与工程”学术论坛,中国南京,2023.11.24-26 5.The 5th International Conference on Modeling in Mechanics and Materials (CMMM2023), MS02: Peridynamic Modeling of Material Failure and Fracture, 8-10 Decemember, 2023, co-chair with Xin Lai, Fei Han, Yile Hu, Qi Tong, Linjuan Wang 4.The 29th International Conference on Computational & Experimental Engineering and Sciences (ICCES2023), MS7: Peridynamic Theory and Multiscale Methods for Complex Material Behavior, 2-5 May, 2023, co-chair with Fei Han, Yunteng Wang, Xin Lai, Xin Gu, Linjuan Wang, Xiaoliang Deng. 3. 第五届全国计算力学青年学术研讨会,中国南京,2020.11 2. 近场动力学与非局部理论国际研究中心成立仪式暨高端论坛,中国南京,2019.11 1. 中国力学大会2019-专题“MS65非局部近场动力学理论与方法”,中国杭州,2019.08 担任教育部学位中心硕士学位论文评审专家期刊审稿人
荣誉及奖励招生信息每年招收力学硕士研究生2人,欢迎力学、水利、土木、计算机、机械、数学、材料等专业背景的同学加入研究团队!l学生指导与培养情况2018年以来,协助指导本科毕业论文、硕士研究生、博士研究生,指导成效良好。 2021年以来,独立指导硕士研究生、本科毕业论文、大学生创新训练。 1. 指导研究生:
2. 指导本科毕业论文:
3. 指导本科生创新训练计划:
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