彭一江

职称职务:教授,博士生导师

E-mail: pengyijiang@bjut.edu.cn

基本信息

北京交通大学固体力学专业博士,清华大学博士后,近年来主要从事新型有限元法─基面力元法(Base Force Element Method, BFEM)的理论体系及应用研究,主持及参与国家自然科学基金面上项目、国家自然科学基金重大研究计划项目、三峡工程枢纽科研项目等科研课题,在《International Journal for Numerical Methods in Engineering》、《Construction and Building Materials》、《Finite Elements in Analysis and Design》、《International Journal of Non-Linear Mechanics》等国际和国内学术期刊上发表学术论文50余篇,出版英文专著1部、中文专著3部、教材1部、参编规范和大型工程手册4部,获计算机软件著作权40多项,历任中国岩石力学与工程学会岩体物理数学模拟委员会委员,中国水利学会水工结构专业委员会、中国水力发电工程学会水工及水电站建筑物专业委员会岩石、混凝土断裂分委员会委员,北京力学会教育工作委员会委员,水工教研室主任,土木工程系副主任,教学部主任,工程力学教研室主任,结构工程与材料研究所副所长,为《International Journal for Numerical Methods in Engineering》、《Computer Modeling in Engineering & Sciences》、《Finite Elements in Analysis and Design》等国际和国内学术期刊审稿人,是北京市市属高校中青年骨干教师、北京高等学校优秀专业课主讲教师、北京工业大学优秀教学质量一等奖获得者、北京工业大学教学名师。

研究方向

新型有限元理论与有限变形问题研究;

细观力学与工程材料损伤破坏机理研究;

计算力学与重大工程灾变研究。

教学工作

目前主讲本科生:结构力学(上册)、结构力学(下册)、弹性力学课程,研究生:非线性力学课程,获北京高校优质本科课程奖、北京市教育教学成果(高等教育)二等奖、北京工业大学教育教学成果一等奖。

出版的专著

Yijiang Peng, Yinghua Liu,《Advances in the Base Force Element Method》, Springer, 2019.

彭一江、应黎坪著,《再生混凝土细观分析方法》,科学出版社,2018.

彭一江、刘应华著,《基面力单元法》,科学出版社,2017.

彭一江、应黎坪著,《再生混凝土损伤分析》,科学出版社,2021.

出版的教材和发布的慕课

彭一江、陈适才、彭凌云编著,《弹性力学》,科学出版社,2015.

彭一江、钟紫蓝主讲,在线开放课程《弹性力学》慕课,中国大学MOOC网站,2020.10.(网址:https://www.icourse163.org/course/bjut-1461098168

近年主持和参与的主要科研项目

国家自然科学基金项目:静动态损伤问题的基面力元法及其在再生混凝土材料细观损伤分析中的应用,项目号:11172015,负责人。

国家自然科学基金项目:有限变形问题的基面力元法理论及其应用研究,项目号:10972015,负责人。

北京市自然科学基金面上项目:再生混凝土材料的微观损伤分析方法,项目号:****2008,负责人。

教育部重点实验室培育项目:再生混凝土材料和结构的多尺度分析方法,项目号:USDE201404,负责人。

中国博士后科学基金一等资助项目:基于余能原理的有限变形问题有限元列式研究,项目号:****0430038,负责人。

北京市教委科技基金项目:基于应变梯度理论的弹塑性扩展裂纹尖端场研究,项目号:KM****10005016,负责人。

北京市属市管高校人才强教计划:基于基面力概念的新型有限元方法研究及其应用,项目号:0****999200602,负责人。

国家自然科学基金重大研究计划项目:复杂岩基条件下拱坝-库水系统非线性地震反映分析与高效算法研究,项目号:****0011,主要完成人。

水利部科技基金项目:碾压混凝土细观损伤断裂模型及其在坝工建设中的应用,项目号:SJ9701,主要完成人。

水利部科技基金项目:坝基岩体中薄泥化夹层和节理的渗流-应力耦合分析方法及其应用研究,项目号:SJ9533,主要完成人。

三峡工程课题:三峡船闸高边坡及1-5号厂房坝段抗滑稳定可靠度分析,项目号:ZT-96(III)-6,主要完成人。

三峡工程课题:三峡工程左岸3号厂房坝段抗滑稳定安全度分析,项目号:ZT-98(I)-8,主要完成人。

近年发表的主要学术论文

Yijiang Peng,Semaoui Zakaria,Yucheng Sun,Ying Chen,Lijuan Zhang,Analysis of Tensile Strength and Failure Mechanism Based on Parallel Homogenization Model for Recycled Concrete. Materials, 2022, 15(1), 145: 1-13.(SCI, WOS: 000****75600001)

Yijiang Peng,Lanfeng Su,Yao Wang,Lijuan Zhang, Analysis of the Effect of Porosity in Concrete under Compression Based on DIP Technology. Journal of Materials in Civil Engineering, 2022, 34(1),0****1376: 1-13.(SCI, WOS: 0007195****0029)

Yijiang Peng,Zhonghai Li,Mahmoud M. A. Kamel,Geometrical nonlinear problems of truss beamby base force element method.International Journal for Numerical Methods in Engineering, 2021,122(18): 4793-4825.(SCI)

Liping Ying,Yijiang Peng通讯作者, Mahmoud M. A. Kamel,3-D base force element method on meso-damage analysis for recycled concrete. Structural Concrete. 2021.5.28, Published online,1-19.SCI, WOS: 000****45500001

Yijiang Peng, Zhenghao Wu, Liping Ying,Desi Yang,Five-phase sphere equivalent model of recycled concrete and numerical simulation based on the base force element method,Engineering Computations,2021, 38(5):1957-1977.(SCI)

Liping Ying,Yijiang Peng(通讯作者), Mahmoud M.A. Kamel,Mesoscopic numerical analysis of dynamic tensile fracture of recycled concrete,Engineering Computations,2020, 37(6): 1899-1922.DOI: 10.1108/EC-05-2019-0214(SCI, WOS:0005135****0001)

Yao Wang,Yijiang Peng(通讯作者), Mahmoud M.A. Kamel, Linqi Gong.Modeling interfacial transition zone of RAC based on a degenerate element of BFEM.Construction and Building Materials,2020,252 (119063): 1–15.DOI: 10.1016/j.conbuildmat.2020.119063(SCI, WOS:000****01700039)

Yao Wang,Yijiang Peng(通讯作者), Mahmoud M.A. Kamel, Liping Ying. Base force element method based on complementary energy principle for damage analysis of recycled aggregate concrete.International Journal for Numerical Methods in Engineering, 2020,121(7): 1484–1506.DOI: 10.1002/nme.6276(SCI, WOS:000****79000001)

Liping Ying,Yijiang Peng(通讯作者), Hongming Yang. Meso-analysis of dynamic compressive behavior of recycled aggregate concrete using BFEM.International Journal of Computational Methods,2020, 17(6), 1950013:1-22.DOI:10.1142/S02198****9500130(SCI, WOS:000****38900005)

Yijiang Peng, Ying Chen, Qing Wang, Liping Ying. Mesoscopic numerical simulation of fracture process and failure mechanism of cement mortar.Structural Concrete,2020, 22(S1):1–12.(SCI, WOS:000****79100001)

Yijiang Peng, Liping Ying, Mahmoud M. A. Kamel, Yao Wang. Mesoscale fracture analysis of recycled aggregate concrete based on digital image processing technique.Structural Concrete,2020, 22(S1):1–15.(SCI)

Yao Wang,Yijiang Peng(通讯作者), Mahmoud M.A. Kamel, Liping Ying.2D numerical investigation on damage mechanism of recycled aggregate concrete prism.Construction and Building Materials,2019,213: 91–99.(SCI)

Yijiang Peng, Xiyun Chen, Liping Ying, Mahmoud M. A. Kamel, Research on softening curve of recycled concrete using base force element method in meso-level.Engineering Computations, 2019, 36(7): 2414–2429.(SCI)

Yao Wang,Yijiang Peng(通讯作者), Mahmoud M. A. Kamel, Liping Ying. Mesomechanical properties of concrete with different shapes and replacement ratios of recycled aggregate based on base force element.Structural Concrete, 2019, 20: 1425–1437.(SCI)

Yijiang Peng,QingWang,LipingYing,Mahmoud M. A. Kamel,Hongtao Peng.Numerical Simulation of Dynamic Mechanical Properties of Concrete under Uniaxial Compression.Materials,2019,12(4),643: 1-16.(SCI)

Yijiang Peng,Xiyun Chen,LipingYing,Ying Chen,Lijuan Zhang. Mesoscopic Numerical Simulation of Fracture Process and Failure Mechanism of Concrete Based on Convex Aggregate Model.Advances in Materials Science and Engineering,2019, 2019,****4327: 1-17.(SCI)

Yijiang Peng, Xinxin Yang, Ruixue Li, Cong Ren.A Degenerated Plane Truss Model of Base Force Element Method on Complementary Energy Principle.International Journal of Computational Methods, 2018, 15(5),1850040:1-27.(SCI)

Yijiang Peng, Yaqiong Bai, Qing Guo. Analysis of plane frame structure using base force element method.Structural Engineering and Mechanics,2017, 62(4):11-20.(SCI)

Yijiang Peng,Jiwei Pu. Micromechanical investigation on size effect of tensile strength for recycled aggregate concrete using BFEM.International Journal of Mechanics and Materials in Design,2016, 12(4):525-538.(SCI)

Yijiang Peng,Hao Chu, Jiwei Pu. Numerical Simulation of Recycled Concrete Using Convex Aggregate Model and Base Force Element Method.Advances in Materials Science and Engineering,2016, 2016:1-10.(SCI)

Yijiang Peng,Qing Guo,Zhaofeng Zhang,Yanyan Shan. Application of Base Force Element Method on Complementary Energy Principle to Rock Mechanics Problems.Mathematical Problems in Engineering,2015, 2015: 1-16.(SCI)

Yijiang Peng, Lijuan Zhang, Jiwei Pu, Qing Guo. A two-dimensional base force element method using concave polygonal mesh.Engineering Analysis with Boundary Elements,2014, 42: 45-50.(SCI)

Yijiang Peng, Nana Zong, Lijuan Zhang, Jiwei Pu. Application of 2D Base Force Element Method with Complementary Energy Principle for Arbitrary Meshes.Engineering Computations,2014, 31(4): 691-708.(SCI)

Yijiang Peng, Yao Wang,Qing Guo, Junhua Ni. Application of Base Force Element Method to Mesomechanics Analysis for Concrete.Mathematical Problems in Engineering,2014, 2014: 1-11.(SCI)

Yijiang Peng, Jiwei Pu, Bo Peng, Lijuan Zhang. Two-dimensional model of base force element method (BFEM) on complementary energy principle for geometrically nonlinear problems.Finite Elements in Analysis and Design,2013, 75: 78-84.(SCI)

Yijiang Peng, Yinghua Liu,Jiwei Pu, Lijuan Zhang. Application of Base Force Element Method to Mesomechanics Analysis for Recycled Aggregate Concrete.Mathematical Problems in Engineering,2013, 2013: 1-8.(SCI)

Yinghua Liu,Yijiang Peng(通讯作者), Lijuan Zhang, Qing Guo. A 4-Mid-Node Plane Model of Base Force Element Method on Complementary Energy Principle.Mathematical Problems in Engineering,2013, 2013: 1-8.(SCI)

Yijiang Peng, Zhanlong Dong, Bo Peng, Nana Zong. The application of 2D base force element method (BFEM) to geometrically nonlinear analysis.International Journal of Non-Linear Mechanics,2012, 47(3): 153-161.(SCI)

Yinghua Liu,Yijiang Peng.Base force element method (BFEM) on complementary energy principle for linear elasticity problem.SCIENCE CHINA - Physics, Mechanics & Astronomy,2011, 54(11): 2025-2032.(SCI)

Yijiang Peng, Zhanlong Dong, Bo Peng, Yinghua Liu. Base force element method (BFEM) on potential energy principle for elasticity problems. InternationalJournal of Mechanics and Materials in Design,2011, 7(3): 245-251.(SCI)

Yijiang Peng,Yinghua Liu.Base force element method of complementary energy principle for large rotation problems.Acta Mechanica Sinica, 2009, 25(4): 507-515.(SCI)

Huaping Zhou,Yijiang Peng(通讯作者),Nana Dang, Jiwei Pu. Numerical simulation of uniaxial compression performance for recycled concrete using micromechanics.Applied Mechanics and Materials, 2013, 253(1): 550-554.(EI)

党娜娜,彭一江(通讯作者),周化平,程娟.基于随机骨料模型的再生混凝土材料细观损伤分析方法.固体力学学报,2013,(S1):58-62.

彭一江,张丽娟,宗娜娜,董占龙.基面力元法(BFEM)的研究及应用进展.计算力学学报,2013,30(s1):193-197.

彭一江,刘应华.基面力概念在几何非线性余能有限元中的应用.力学学报.2008, 40(4): 496-501.(EI)

彭一江,刘应华.基于余能原理的有限变形问题有限元列式.计算力学学报.2009,26(4):460-465.(EI)

彭一江,刘应华.一种基于基线力概念的平面几何非线性余能原理有限元模型.固体力学学报. 2008, 29(4): 365-371.(EI)

彭一江,金明.基于基面力概念的一种新型余能原理有限元方法.应用力学学报,2006, 23(4):649-652.(EI)

彭一江,金明.基于基面力概念的余能原理任意网格有限元方法.工程力学,2007, 24(10):41-45.(EI)

彭一江,黎保琨,刘斌:碾压混凝土细观结构力学性能的数值模拟.水利学报,2001,(6):19-22.(EI)

孙东亚,彭一江,王兴珍:DDA数值方法在岩质边坡倾倒破坏分析中的应用.岩石力学与工程学报,2002,21(1):39-42.(EI)

彭一江,黎保琨,胡俊江:三峡工程厂房坝段深层抗滑稳定分析.岩石力学与工程学报,2001,20(增2):1546-1550.

彭一江.强度理论百年总结(译文).力学进展,2004, 34(4):529-560.

学生获奖

2013届研究生,宗娜娜,硕士论文题目:基于余能原理的三维基面力元法研究,获北京工业大学优秀硕士学位论文、北京工业大学优秀毕业生、北京市优秀毕业生;

2014届研究生,浦继伟,硕士论文题目:基面力元法在再生混凝土材料细观损伤分析中的应用,获国家奖学金、北京工业大学优秀硕士学位论文;

2015届研究生,郭庆,硕士论文题目:余能原理基面力元法的若干理论与技术问题研究,获国家奖学金、北京工业大学优秀硕士学位论文;

2015届研究生,王耀,硕士论文题目:三维基面力元法及其在再生混凝土细观损伤分析中的应用,获国家奖学金、北京工业大学优秀硕士学位论文。

2017届研究生,褚昊,硕士论文题目:动力损伤基面力元法在再生混凝土应变率敏感性分析中的应用,获国家奖学金、北京工业大学优秀毕业生。

2017届研究生,白亚琼,硕士论文题目:基面力单元法的梁单元模型研究及其在刚架结构中的应用,获北京工业大学优秀毕业生。

学校地址:北京市朝阳区平乐园100号
邮政编码:100124

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