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殷德顺

职称: 教授 博士生导师

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: 13675176567

邮件: yindeshun@hhu.edu.cn

办公地址: 南京市江宁区佛城西路8号乐学楼

通讯地址: 江苏省南京市佛城西路8号力学与材料学院

邮编: 211100

32 访问

个人简介

  殷德顺男,1972年生于山东莱州,教授,博士生导师,江苏省教学名师,曾任力学与材料学院副院长,曾任河海大学期刊部副主任。江苏省青蓝工程优秀教学团队负责人,河海大学材料力学课程首席教授。担任江苏省力学学会环境与灾害力学专业委员会主任、中国力学学会环境力学委员会特邀委员、中国自动化学会分数阶系统与控制专业委员会委员、中国工程建设标准化协会结构设计基础专业委员会委员。曾分别在美国哥伦比亚大学、普渡大学、加州大学默塞德分校、犹他州立大学和法国东巴黎大学访问学习。

  主要从事新材料力学行为本构模型(非牛顿流体及流变学)、大数据、人工智能与力学交叉数智力学与应用)、土壤及地下水污染物扩散(土壤环境力学)等方面的研究。倡导力学研究与国家需求和新技术有机地结合。

  主持或参加了国家、省自然科学基金及各类专项基金等近二十项科研课题;出版著作1部;发表科研论文120余篇,其中SCI论文100余篇;授权专利10余项。已指导博、硕研究生40余人。获得各项奖励30余项。

个人资料

  • 姓名: 殷德顺
  • 性别:
  • 学位: 博士
  • 出生年月: 1972-07-28 00:00:00.0
  • 学历: 博士研究生
  • 毕业院校: 河海大学

教育经历

  • 2005.09-2009.04,河海大学,岩土工程,博士
  • 2002年9月-2005年6月,河海大学,岩土工程,硕士
  • 1992年8月-1996年6月,河海大学,工程力学,学士

工作经历

  • 1996.08-1999.07,河海大学土木工程学院,政治辅导员
  • 1996.06-2002.05,河海大学土木工程学院,助教
  • 2002.05-2008.05,河海大学土木工程学院,讲师
  • 2008.05-2009.10,河海大学土木工程学院,副教授
  • 2009.10-2014.05,河海大学力学与材料学院,副教授,副所长
  • 2010.08-2011.08,美国犹他州立大学,访问学者
  • 2013.01-2020.05,河海大学力学与材料学院,副院长
  • 2014.05-,河海大学力学与材料学院,教授、博导
  • 2014.06-2014.09,法国东巴黎大学,访问学者
  • 2017.08-2018.08,美国哥伦比亚大学、美国普渡大学、美国加州大学默塞德分校,访问学者
  • 2020年6月-2024年3月,河海大学期刊部,副主任,副主任

研究领域

新材料力学行为本构模型(非牛顿流体及流变学)、大数据、人工智能与力学交叉(数智力学与应用土壤及地下水污染物扩散(土壤环境力学)等方面的研究。倡导力学研究与国家需求和新技术有机地结合。

科研项目

  • 1、河湖水体智能监测机器人技术研发,2018.10-,殷德顺,深圳市科创局,深圳市
  • 2、软弱土地基中地铁隧道运行期持续变形机理及数值模拟,2012.07.01 00:00:00+00-2015.07.01 00:00:00+00,殷德顺,江苏省科学技术厅,力学与工程科学学院党委、力学与工程科学学院
  • 3、局部振动条件下软土力学性质演变机理及其分数阶本构模型,2019.01.01 00:00:00+00-2022.12.31 00:00:00+00,殷德顺,国家自然科学基金委员会,力学与工程科学学院党委、力学与工程科学学院

论文

  • 1、Fractional time-dependent Bingham model for muddy clay,Journal of Non-Newtonian Fluid Mechanics,01-JAN-12
  • 2、Variable-order fractional mean square displacement function with evolution of diffusibility,PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS,01-JAN-13
  • 3、Fractional order constitutive model of geomaterials under thecondition of triaxial test,INTERNATIONAL JOURNAL FOR NUMERICAL AND ANALYTICAL METHODS IN GEOMECHANICS,01-JAN-13
  • 4、Time-based fractional longitudinal-transverse strain model for viscoelastic solids,Mechanics of Time-Dependent Materials,01-JAN-13
  • 5、Fractional time-dependent deformation component models for characterizing viscoelastic Poisson‘s ratio,European Journal of Mechanics A/Solids,01-JAN-13
  • 6、Fractional description of mechanical property evolution of soft soils during creep,Water Science and Engineering,01-JAN-13
  • 7、地铁隧道持续沉降和隧道周围软土的振动流态化,中国力学大会——2013,01-JAN-13
  • 8、变分数阶微积分在描述材料力学性质演变方面的应用,三峡大学学报(自然科学版),2013-01-01,力学与材料学院
  • 9、基于分数阶微积分的岩土材料变形研究,河海大学学报(自然科学版),2013-01-01,力学与材料学院
  • 10、基于分数阶微积分的黏弹性材料变形研究,中国科学:物理学力学天文学,2013-01-01,力学与材料学院
  • 11、Fractional order constitutive model of geomaterials under triaxial tests,proceeding of the ASME 2011internationalDesignengineering Technical Conferences & computers and Information in engineering Conference,01-JAN-11
  • 12、Random Fractional differential model based on stress-strain curve of soil,The 5th IFAC Symposium on Fractional Differentiation and its Applications (FDA12),2012-01-01,力学与材料学院
  • 13、Variable-order fractional mean square displacement function with evolution of diff,usibility,The 5th IFAC Symposium on Fractional Differentiation and its Applications (FDA12),01-JAN-12
  • 14、Modeling the evolution of Mechanical Property during stress relaxation of soils through Variable-order fractional operator,The 5th IFAC Symposium on Fractional Differentiation and its Applications (FDA12),2012-01-01,力学与材料学院
  • 15、岩土应变硬化指数理论及其分数阶微积分理论基础,岩土工程学报,01-JAN-10
  • 16、负乘幂本构模型的切线模量,岩土力学,01-JAN-09
  • 17、基于分数阶微积分理论的软土应力应变关系研究,岩石力学与工程学报,01-JAN-09
  • 18、基于分数阶微积分的常规三轴实验中土体体积应变研究,中国力学学会学术大会’2009,01-JAN-09
  • 19、等值梁法的改进,探矿工程(岩土钻掘工程),01-JAN-08
  • 20、深厚软弱地基建坝的地基处理,探矿工程(岩土钻掘工程),01-JAN-08
  • 21、土压力位移关系的应力路径试验研究,岩土力学,01-JAN-08
  • 22、不同方向卸载对基坑支护位移内力的影响,岩土力学,01-JAN-08
  • 23、粘性土作用在基坑支护上水土压力的新思考,力学与工程,01-JAN-05
  • 24、不同应力路径下的邓肯-张模型模量公式,岩土工程学报,01-JAN-07
  • 25、一种新的岩土流变模型元件,岩石力学与工程学报,01-JAN-07
  • 26、支护水平位移对支护后土体变形的影响,中国水运(学术版),01-JAN-07
  • 27、一种防桥头跳车装置的模拟试验研究,中外公路,01-JAN-07
  • 28、主动区不同位置土压力位移曲线之间的关系,中国力学大会论文摘要集(下册),01-JAN-07
  • 29、深厚软弱地基修建土石低、中坝问题的研究,水资源与水工程学报,01-JAN-07
  • 30、New rheological model element for geomaterials,岩石力学与工程学报,01-JAN-07
  • 31、Tangent elastic modulus of Duncan-Chang model for different stress paths,岩土工程学报,01-JAN-07
  • 32、Test and modulus formula for lateral unloading and loading stress paths during excavation in foundation pit,岩土力学,01-JAN-07
  • 33、基坑工程侧向卸、加载应力路径试验及模量计算,岩土力学,01-JAN-07
  • 34、材料力学多媒体教学软件的制作与应用,河海大学学报(社科),01-JAN-04
  • 35、材料力学授课系统创作思想,河海大学学报(社科),01-JAN-01
  • 36、组合变形和压干稳定"授课软件创作思想初探,浙大教育研究,01-JAN-01
  • 37、Mechanism of complicated volume deformation in polymers and its fractional time-based description,PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS,15-JUN-14
  • 38、Fractional description of time-dependent mechanical property evolution in materials with strain softening behavior,Applied Mathematical Modelling,01-JAN-15
  • 39、力学虚拟仿真教学实验室建设的探讨,实验技术与管理,17-DEC-14
  • 40、Variable-order fractional MSD function to describe the evolution of protein lateral diffusion ability in cell membranes,Physica A: Statistical Mechanics and its Applications,01-JAN-17
  • 41、Experimental investigation on the viscosity of hybrid nanofluids made of two kinds of nanoparticles mixed in engine oil,MICRO & NANO LETTERS,01-JAN-18
  • 42、Fractional description of time-dependent mechanical property evolution in materials with strain softening behavior,Applied Mathematical Modelling,2015-06-11,力学与材料学院,力学与材料学院
  • 43、Fractional order constitutive model of geomaterials under the condition of triaxial tests,INTERNATIONAL JOURNAL FOR NUMERICAL AND ANALYTICAL METHODS IN GEOMECHANICS,2012-10-15,力学与材料学院,力学与材料学院
  • 44、Variable-order fractional constitutive model for the timedependent mechanical behavior of polymers across the glass transition,THE EUROPEAN PHYSICAL JOURNAL PLUS,2019-08-02,力学与材料学院
  • 45、Variable-order fractional description of compression deformation of amorphous glassy polymers,Computational Mechanics,2018-11-23,力学与材料学院
  • 46、A variable order fractional constitutive model of the viscoelastic behavior of polymers,International Journal of Non-Linear Mechanics,2019-04-08,力学与材料学院
  • 47、Mechanism of complicated volume deformation in polymers and its fractional time-based description,PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS,2014-06-15
  • 48、Fractional description of time-dependent mechanical property evolution in materials with strain softening behavior,Applied Mathematical Modelling,2015-01-01
  • 49、Variable-order fractional MSD function to describe the evolution of protein lateral diffusion ability in cell membranes,Physica A: Statistical Mechanics and its Applications,2017-01-01
  • 50、Experimental investigation on the viscosity of hybrid nanofluids made of two kinds of nanoparticles mixed in engine oil,MICRO & NANO LETTERS,2018-01-01
  • 51、Variable-order fractional constitutive model for the time-dependent mechanical behavior of polymers across the glass transition,EUROPEAN PHYSICAL JOURNAL PLUS,2019-01-01
  • 52、Influence of sand content on the flow characteristics of soft soil under cyclic and high-frequency vibration,EARTHQUAKE ENGINEERING AND ENGINEERING VIBRATION,2019-01-01
  • 53、Variable-order fractional description of compression deformation of amorphous glassy polymers,COMPUTATIONAL MECHANICS,2019-01-01
  • 54、A variable order fractional constitutive model of the viscoelastic behavior of polymers,INTERNATIONAL JOURNAL OF NON-LINEAR MECHANICS,2019-01-01
  • 55、Conversion efficiency and effective properties of particulate-reinforced thermoelectric composites,Zeitschrift für angewandte Mathematik und Physik,2020-03-03
  • 56、Experimental investigation and mechanism analysis: Effect of nanoparticle size on viscosity of nanofluids,JOURNAL OF MOLECULAR LIQUIDS,2020-10-01
  • 57、Experimental study of viscosity characteristics of graphite/engine oil (5 W-40) nanofluids,APPLIED NANOSCIENCE,2020-07-14
  • 58、Parameter study of variable order fractional model for the strain hardening behavior of glassy polymers,PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS,2020-09-08
  • 59、Creep model for natural fiber polymer composites (NFPCs) based on variable order fractional derivatives: Simulation and parameter study,Creep model for natural fiber polymer composites (NFPCs) based on variable order fractional derivatives: Simulation and parameter study,2020-06-09
  • 60、Experimental study of viscosity characteristics of graphite/engine oil (5 W-40) nanofluids,APPLIED NANOSCIENCE,2020-01-01
  • 61、Parameter study of variable order fractional model for the strain hardening behavior of glassy polymers,PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS,2020-01-01
  • 62、Conversion efficiency and effective properties of particulate-reinforced thermoelectric composites,ZEITSCHRIFT FUR ANGEWANDTE MATHEMATIK UND PHYSIK,2020-01-01
  • 63、Creep model for natural fiber polymer composites (NFPCs) based on variable order fractional derivatives: Simulation and parameter study,JOURNAL OF APPLIED POLYMER SCIENCE,2020-01-01
  • 64、Effect of surface phonon scattering on thermal stress around small-scale elliptic holes in a thermoelectric material,JOURNAL OF THERMAL STRESSES,2021-02-01
  • 65、Predictive model for stress relaxation behavior of glassy polymers based on variable-order fractional calculus,POLYMERS FOR ADVANCED TECHNOLOGIES,2021-02-01
  • 66、A localized collocation scheme with fundamental solutions for long-time anomalous heat conduction analysis in functionally graded materials,INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2021-12-01
  • 67、An efficient localized Trefftz-based collocation scheme for heat conduction analysis in two kinds of heterogeneous materials under temperature loading,COMPUTERS & STRUCTURES,2021-10-01
  • 68、Creep modelling of soft soil based on the fractional flow rule: Simulation and parameter study,APPLIED MATHEMATICS AND COMPUTATION,2021-08-01
  • 69、Rheological behavior of bentonite-water suspension at various temperatures: Effect of solution salinity,ENGINEERING GEOLOGY,2021-12-01
  • 70、A full-stage creep model for rocks based on the variable-order fractional calculus,APPLIED MATHEMATICAL MODELLING,2021-07-01
  • 71、Interaction effects on heat conduction and thermal stress in an infinite elastic plane with two circular holes,APPLIED MATHEMATICS AND MECHANICS-ENGLISH EDITION,2021-02-01
  • 72、Design of non-circular nanoinhomogeneities with uniform heat flux in two-dimensional heat conduction,INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2021-02-01
  • 73、Application of artificial neural network for prediction of flow ability of soft soil subjected to vibrations,GEOMECHANICS AND ENGINEERING,2021-06-01
  • 74、A general fractional model of creep response for polymer materials: Simulation and model comparison,JOURNAL OF APPLIED POLYMER SCIENCE,2022-02-01
  • 75、Thermal-electric-elastic analyses of a thermoelectric material containing two circular holes,INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES,2021-03-01
  • 76、Structural Kinetics Model to Describe the Thixotropic Behavior of Cathode Slurry for Lithium-Ion Batteries,JOURNAL OF ELECTRONIC MATERIALS,2021-12-01
  • 77、Predictive model for stress relaxation behavior of glassy polymers based on variable-order fractional calculus,Polymers for Advanced Technologies,2021-02-01
  • 78、Seeking high energy conversion efficiency in a fully temperature-dependent thermoelectric medium,ENERGY,2022-03-31
  • 79、Fractional description of creep behavior for fiber reinforced concrete: Simulation and parameter study,CONSTRUCTION AND BUILDING MATERIALS,2022-03-31
  • 80、Seeking high energy conversion efficiency in a fully temperature-dependent thermoelectric medium,ENERGY,2022-01-15
  • 81、Fractional description of creep behavior for fiber reinforced concrete: Simulation and parameter study,CONSTRUCTION AND BUILDING MATERIALS,2022-02-07
  • 82、A bridge between the fractional viscoelasticity and time-varying viscosity model: physical interpretation and constitutive modeling,MECHANICS OF TIME-DEPENDENT MATERIALS,2022-05-01
  • 83、Fractional description for the rate-dependent viscoelastic response of tough hydrogels,POLYMERS FOR ADVANCED TECHNOLOGIES,2022-09-01
  • 84、Effect of Various Components on Time-Dependent Rheological Behavior of Cathode Slurries for Lithium-Ion Batteries,JOURNAL OF ELECTRONIC MATERIALS,2022-07-01
  • 85、Wet aggregate stability modeling based on support vector machine in multiuse soils,INTERNATIONAL JOURNAL OF DISTRIBUTED SENSOR NETWORKS,2022-06-01
  • 86、Concentration dependence of yield stress; thixotropy; and viscoelasticity rheological behavior of lithium-ion battery slurry,CERAMICS INTERNATIONAL,2022-07-01
  • 87、A Variable-Order Fractional Constitutive Model to Characterize the Rate-Dependent Mechanical Behavior of Soft Materials,FRACTAL AND FRACTIONAL,2022-10-01
  • 88、Wet Aggregate Stability Predicting of Soil in Multiple Land-Uses Based on Support Vector Machine,Proceedings - 2021 International Conference on Networking and Network Applications, NaNA 2021,2021-01-01
  • 89、A three-dimensional fractional visco-hyperelastic model for soft materials,JOURNAL OF THE MECHANICAL BEHAVIOR OF BIOMEDICAL MATERIALS,2023-01-01
  • 90、Influence of Soil Heterogeneity on Water Flow and Solute Transport Characterized by Dye Tracer Experiments,JOURNAL OF HYDROLOGIC ENGINEERING,2023-02-01
  • 91、Influence of Soil Heterogeneity on Water Flow and Solute Transport Characterized by Dye Tracer Experiments,JOURNAL OF HYDROLOGIC ENGINEERING,2023-02-01
  • 92、Analysis of the variable-order fractional viscoelastic modeling with application to polymer materials,POLYMERS FOR ADVANCED TECHNOLOGIES,2023-08-01
  • 93、Temperature-dependent rheological behavior of cathode slurry for lithium-ion battery under steady and dynamic tests,KOREA-AUSTRALIA RHEOLOGY JOURNAL,2023-08-01
  • 94、A three-dimensional fractional visco-hyperelastic model for soft materials,JOURNAL OF THE MECHANICAL BEHAVIOR OF BIOMEDICAL MATERIALS,2023-01-01
  • 95、The elastoplastic large deformation analysis based on meshless radial basis reproducing kernel particle method,ENGINEERING ANALYSIS WITH BOUNDARY ELEMENTS,2023-10-01
  • 96、A deep learning framework for solving forward and inverse problems of power-law fluids,PHYSICS OF FLUIDS,2023-09-01

科技成果

  • 1、一种深厚软弱土地基加固的方法,2013-09-25,力学与工程科学学院党委、力学与工程科学学院,发明,3
  • 2、一种深厚软弱土基坑加固的方法,2014-01-13,力学与工程科学学院党委、力学与工程科学学院,发明,3
  • 3、一种用于检测隧道持续沉降土体的装置和方法,2013-05-10,力学与工程科学学院党委、力学与工程科学学院,发明,3
  • 4、用于开挖引起的地陷预警的装置及其方法,2013-07-11,力学与工程科学学院党委、力学与工程科学学院,发明,3
  • 5、一种用于降低污泥含水率的装置,2011-11-11,力学与工程科学学院党委、力学与工程科学学院,发明,3
  • 6、用于边坡加固的水泥搅拌桩结构,2012-11-22,力学与工程科学学院党委、力学与工程科学学院,发明,3
  • 7、安全杯座,2007-05-23,力学与工程科学学院党委、力学与工程科学学院,实用新型,3
  • 8、用于堆石坝的混凝土面板,2008-12-03,土木与交通学院党委、土木与交通学院,发明,3
  • 9、一种用于修复重金属污染淤泥的装置及方法,2010-12-06,水利水电学院党委、水利水电学院,发明,3
  • 10、一种用于测量冲击过程中液体流-固转化机理的装置及其方法,2014-12-22,力学与工程科学学院党委、力学与工程科学学院,发明,3
  • 11、一种具有排水功能的双层土工格室,2017-02-15,土木与交通学院党委、土木与交通学院,发明,3
  • 12、一种深厚软弱土地基加固的方法,2015/11/25,力学与材料学院,发明专利,3
  • 13、一种深厚软弱土基坑加固的方法,2016/01/20,力学与材料学院,发明专利,3
  • 14、一种用于检测隧道持续沉降土体的装置和方法,2015/04/08,力学与材料学院,发明专利,3
  • 15、一种用于降低污泥含水率的装置,2013/03/06,力学与材料学院,发明专利,3

开授课程

  • 1、结构可靠度,本科生,32
  • 2、理论力学C,本科生,64
  • 3、材料力学B,本科生,68,64

教学成果

1.2018年获国家级教学成果奖(4/10

2.2018年获宝钢优秀教师奖

3.2017年获江苏省教学成果奖二等奖(1/8

4.2017年获全国优秀力学教师奖(1/1

5.2017年获国际力学竞赛优秀指导教师称号(1/1

6.2017年江苏省青蓝工程优秀教学团队(2/5

7.2017年获江苏省优秀力学教师奖(1/1

8.2016年获江苏省力学科学技术奖一等奖(7/8

9.2016年获徐芝纶教学奖二等奖(1/1

10.2016年获河海大学教学成果奖特等奖(1/6

11.2016年获河海大学教学成果奖特等奖(2/8

12.2016年高等学校国家级实验教学示范中心联席会双创讲堂讲习证书(1/1

13.2015年获河海大学优秀班导师称号(1/1

14.2015年获河海大学优秀硕士论文指导教师称号(1/1

15.2014年获河海大学优秀主讲教师 (1/1

16.2014年获江苏省青年教师讲课竞赛三等奖(1/1

17.2013年获江苏省力学学会优秀教师论文奖(1/1

18.2013年获江苏省力学学会优秀教师论文奖(1/1)


教学资源

材料力学在线课程(https://www.icourse163.org/course/HHU-1207510801

社会职务

江苏省力学学会环境与灾害力学专业委员会主任

中国力学学会环境力学委员会特邀委员

中国自动化学会分数阶系统与控制专业委员会委员

中国工程建设标准化协会结构设计基础专业委员会委员

荣誉及奖励

  • 1、2016年度江苏省科学技术奖_三等奖(省、部委级),力学与工程科学学院党委、力学与工程科学学院,2016-12-01,省、部委级,三等奖
  • 2、国家教学成果奖二等奖,河海大学力学与材料学院,2018-9-27,部级,部级
  • 3、宝钢教育奖特等奖,河海大学力学与材料学院,2018-11-06,省级,省级
  • 4、江苏省青蓝工程优秀教学团队骨干员,力学与材料学院,2017-05-12,省级,省级
  • 5、江苏省力学科学技术奖一等奖,力学与材料学院,2016-05-08,省级,省级
  • 6、江苏省青蓝工程优秀团队负责人,河海大学,2019,省部级团队
  • 7、江苏省力学科技奖,2016,一等奖

招生信息

开创“学创结合,研思融合力学研究生培养模式”


   以提升研究生“层次” 为目标,以指导学生参加文献阅读、问题提炼、科学研究和高阶发展为路径,实现从要求驱动、兴趣驱动、成果驱动到理想驱动的不断转变,初步养成终身学习,科研创新和科学思维能力。

 


在读博士:


曹晨曦、田茗源、陈璇、韩宝芝、秦少鹏、马良柱、赵嘉辉、李李睿、李灿琦



在读研究生:


马帅鹏、刘新航、陈武




研究方向:


新材料力学行为本构模型(非牛顿流体及流变学)


大数据、人工智能与力学交叉(数智力学与应用)


土壤及地下水污染物扩散(土壤环境力学)