A Non-Ordinary State-Based Peridynamic Formulation for Failure of Concrete Subjected to Impacting Loads 被引量：4

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摘要 Strain hardening and strain rate play an important role in dynamic deformation and failure problems such as high-velocity impact cases.In this paper,a non-ordinary state-based peridynamic model for failure and damage of concrete materials subjected to impacting condition is proposed,taking the advantages of both damage model and nonlocal peridynamic method.The Holmquist-Johnson-Cook(HJC)model describing the mechanical character and damage of concrete materials under large strain,high strain rate and high hydrostatic pressure was reformulated in the framework of non-ordinary statebased peridynamic theory,and the corresponding numerical approach was developed.The proposed model and numerical approach were validated through simulating typical impacting examples and comparing the results with available experimental observations and results in literature.

作者 Liwei Wu Dan Huang Yepeng Xu Lei Wang

机构地区 College of Mechanics and Materials

出处《Computer Modeling in Engineering & Sciences》 SCIE EI 2019年第3期561-581,共21页 工程与科学中的计算机建模（英文）

基金 The authors acknowledge the support from the National Key R&D Program of China(No.2018YFC0406703) National Natural Science Foundation of China(No.51679077) the Fundamental Research Funds for the Central Universities in China(No.2015B18314,2017B13014).

关键词 Non-ordinary state-based PERIDYNAMICS Holmquist-Johnson-Cook model dynamic FRACTURE CONCRETE NON-LOCAL

分类号 TG1 [金属学及工艺—金属学]

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参考文献1

1刘海峰,宁建国.冲击荷载作用下混凝土动态本构模型的研究[J].工程力学,2008,25(12):135-140. 被引量：17

二级参考文献21

1王铎.断裂力学[M].哈尔滨：哈尔滨工业大学出版社,1989.248-249.
2Perzyna P. Fundamental problems in visco-plasticity [C]// Kuerti G. Advances in Applied Mechanics. New York: Academic Press, 1966:243--377.
3Wang W. Stationary and propagative instabilities in metals a computational point of view [D]. Netherlands: TU Delft, 1997.
4Dube J F. Rate dependent damage model for concrete in dynamics [J]. Journal of Engineering Mechanics, 1996, 122: 939--947.
5Georgin J F, Reynouard J M. Model of structures subjected to impact: Concrete behavior under high strain rate [J]. Cement and Concrete Composites, 2001, 13:1 -- 13.
6Ottosen N S. A failure criterion for concrete [J]. Journal of Engineering Mechanics, 1977, 103: 527--535.
7Kupfer H, Hilsdorf H K, Rusch H. Behavior of concrete under biaxial stresses [J]. ACI Journal, 1969, 66: 656--666.
8Richart F E, Brandtzaeg A, Brown R L. A study of the failure of concrete under combined compressive stresses [EB]. Bulletin No. 185, Urbana: University of Illinois, Engineefing Exoeriment Station, 1928.
9Balmer G -G. Shearing strength of concrete under high triaxial stress computation of mohrs envelope as curve [R]. Report No.SP-23, Washington DC: Structural Research Laboratory, 1949.
10Lemaitre J,Chaboehe J L. Aspect phenomenologique de la rupture par endommagement [J]. Journal Mecanique Applique, 1978, 2(3): 317--365.

共引文献16

1胡海蛟,彭刚,谢玖杨,王敏.混凝土循环加卸载动态损伤特性研究[J].工程力学,2015,32(6):141-145. 被引量：21
2白二雷,许金余,高志刚.碳纤维混凝土的动态损伤本构模型[J].建筑科学,2011,27(11):20-23. 被引量：2
3沈峰,章青,黄丹,赵晶晶.冲击荷载作用下混凝土结构破坏过程的近场动力学模拟[J].工程力学,2012,29(A01):12-15. 被引量：21
4付玉凯,解北京,王启飞.煤的动态力学本构模型[J].煤炭学报,2013,38(10):1769-1774. 被引量：29
5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[J].重庆大学学报（自然科学版）,2019,42(1):64-69. 被引量：4
6李忠献,刘泽锋.混凝土动态本构模型综述[J].天津大学学报（自然科学与工程技术版）,2015,48(10):853-863. 被引量：20
7马悦,朱志武,马巍,宁建国.冻土冲击动态应力-应变曲线特征及汇聚现象分析[J].工程力学,2015,32(10):52-59. 被引量：6
8岳中文,郭洋,许鹏,王茜,赵静怡.定向断裂控制爆破爆生裂纹扩展机理的实验研究[J].工程力学,2016,33(2):50-58. 被引量：11
9康翔杰,刘艳辉,许浒,赵世春,余志祥.低速冲击碰撞有限元分析中混凝土动态破坏面修正方法[J].工程力学,2016,33(3):135-142. 被引量：5
10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[J].振动与冲击,2016,35(6):52-58. 被引量：31

同被引文献22

1胡时胜,张磊,武海军,巫绪涛.混凝土材料层裂强度的实验研究[J].工程力学,2004,21(4):128-132. 被引量：34
2邱流潮,刘桦,金峰.混凝土重力坝地震响应数值分析方法[J].河海大学学报（自然科学版）,2006,34(1):65-68. 被引量：5
3方修君,金峰,王进廷.基于扩展有限元法的Koyna重力坝地震开裂过程模拟[J].清华大学学报（自然科学版）,2008,48(12):2065-2069. 被引量：44
4黄丹,章青,乔丕忠,沈峰.近场动力学方法及其应用[J].力学进展,2010,40(4):448-459. 被引量：133
5沈峰,章青,黄丹,赵晶晶.冲击荷载作用下混凝土结构破坏过程的近场动力学模拟[J].工程力学,2012,29(A01):12-15. 被引量：21
6张国新,金峰,王光纶.用基于流形元的子域奇异边界元法模拟重力坝的地震破坏[J].工程力学,2001,18(4):18-27. 被引量：19
7房树财,何佳,刘小军.强震作用下戈兰滩重力坝动力响应分析[J].福建建材,2015(10):1-4. 被引量：1
8卢志堂,王志亮.近场动力学法频散特性及其在岩石层裂分析中应用[J].哈尔滨工业大学学报,2016,48(2):131-137. 被引量：5
9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[J].工程力学,2016,33(12):80-85. 被引量：14
10乔丕忠,张勇,张恒,张律文.近场动力学研究进展[J].力学季刊,2017,38(1):1-13. 被引量：30

引证文献4

1赵凯丽,邱流潮,李敬军.基于近场动力学理论的混凝土重力坝地震响应数值模拟[J].中国农村水利水电,2021(7):139-145. 被引量：1
2Siyang Yang,Xin Gu,Qing Zhang,Xiaozhou Xia.Bond-associated non-ordinary state-based peridynamic model for multiple spalling simulation of concrete[J].Acta Mechanica Sinica,2021,37(7):1104-1135. 被引量：1
3Jingjing Zhao,Guangda Lu,Qing Zhang,Wenchao Du.Modelling of Contact Damage in Brittle Materials Based on Peridynamics[J].Computer Modeling in Engineering & Sciences,2021(11):519-539. 被引量：2
4Zhuang Chen,Xihua Chu.Peridynamic Modeling and Simulation of Fracture Process in Fiber-Reinforced Concrete[J].Computer Modeling in Engineering & Sciences,2021(4):241-272. 被引量：5

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1陈壮,楚锡华,段庆林.基于Cosserat近场动力学的纤维混凝土破坏模拟[J].固体力学学报,2022,43(3):318-331. 被引量：2
2Runze Song,Fei Han,Yong Mei,Yunhou Sun,Ao Zhang.A Hybrid Local/Nonlocal Continuum Mechanics Modeling of Damage and Fracture in Concrete Structure at High Temperatures[J].Computer Modeling in Engineering & Sciences,2022(11):389-412.
3Haoran Zhang,Yaxun Liu,Lisheng Liu,Xin Lai,Qiwen Liu,Hai Mei.Implementation of OpenMP Parallelization of Rate-Dependent Ceramic Peridynamic Model[J].Computer Modeling in Engineering & Sciences,2022(10):195-217.
4Sai Li,Xin Lai,Lisheng Liu.Peridynamic Modeling of Brittle Fracture in Mindlin-Reissner Shell Theory[J].Computer Modeling in Engineering & Sciences,2022(5):715-746.
5Lisheng Liu,Xihua Chu,Xinhua Yang,Jianzhong Chen,Qun Huang.Introduction to the Special Issue on Modeling of Heterogeneous Materials[J].Computer Modeling in Engineering & Sciences,2023(1):1-3.
6董丽杰.地震作用下重力坝位移响应分析[J].水利科技与经济,2023,29(1):35-39.
7Xue Liang,Linjuan Wang.The Boundary Element Method for Ordinary State-Based Peridynamics[J].Computer Modeling in Engineering & Sciences,2024,139(6):2807-2834.

1张一犇,姚松,洪翔,王中钢.A modified Johnson–Cook model for 7N01 aluminum alloy under dynamic condition[J].Journal of Central South University,2017,24(11):2550-2555. 被引量：10
2李云飞,ZENG Xiangguo.Dynamic Tensile Behavior and Constitutive Modeling of TC21 Titanium Alloy[J].Journal of Wuhan University of Technology(Materials Science),2019,34(3):707-716. 被引量：5
3Luis Felipe del Castillo,Paula Vera-Cruz.Thermodynamic Formulation of Living Systems and Their Evolution[J].Journal of Modern Physics,2011,2(5):379-391. 被引量：1
4Tahir Kibriya,Leena Tahir.Sustainable Construction—Use of Stone Dust as Plasticiser in High Strength SCC with Blended Cement[J].World Journal of Engineering and Technology,2017,5(3):412-420.
5Zishang Liu,YangyangYu,Zhe Yang,Yanpeng Wei,Junshuang Cai,Maohui Li,Chenguang Huang.Dynamic experimental studies of a6n01s-t5 aluminum alloy material and structure for high-speed train[J].Acta Mechanica Sinica,2019,35(4):763-772. 被引量：3
6Y. Ferhat,I. Ozkol.The Effects of Dimension Ratio and Horizon Length in the Micropolar Peridynamic Model[J].Engineering（科研）,2011,3(6):594-601. 被引量：1
7丹·博尔顿,吴篁(译).中国开始征收进口茶税[J].茶世界,2019,0(10):71-75.
8E. Thomas Moyer,Michael J. Miraglia.Peridynamic Solutions for Timoshenko Beams[J].Engineering（科研）,2014,6(6):304-317.
9杨飞,袁毓,林文璐,廖书傲,张成杰,陈清.Generalized Hardy-type tests for hierarchy of multipartite non-locality[J].Chinese Physics B,2019,28(12):99-104.
10Ken-ichi Saitoh,Haruhiko Ohno,Syunichiro Matsuo.Structure and Mechanical Behavior of Cellulose Nanofiber and Micro-Fibrils by Molecular Dynamics Simulation[J].Soft Nanoscience Letters,2013,3(3):58-67. 被引量：1

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