夏晓舟

夏晓舟，博士，从事工程材料与结构的数值仿真研究，包括工程材料的本构建模，严酷环境下的多场耦合建模，多尺度破坏过程的数值方法及软件研发。主持和参与重点实验室开放基金项目、国家自然科学基金重点基金项目、国家自然科学基金面上项目、国家重点研发项目等多项科研项目，发表论文80余篇，其中SCI论文50余篇，软件著作权5项，合著2本。

主要研究方向：    

(1）计算力学与工程仿真；   

(2）不连续介质力学、多尺度力学、多场耦合力学；   

(3）多场耦合作用下材料与结构破坏过程的跨尺度模拟与破坏机制；    

 期刊论文：  

[1] Weifan Lv, Xiaozhou Xia,Guangda Lu, Xin Gu, Panyong Liu, Qing Zhang. A physicalized nonlocal macro-meso-scale consistent damage model for fracture of thermo-elastic solids. Computer Methods in Applied Mechanics and Engineering, 446,(2025).

[2] Xiao Han, Guangda Lu, Xiaozhou Xia, Dake Yi, Weifan Lv. A mixed-phase-field model with competitive mechanism for quasi-brittle crack extension. Engineering Fracture Mechanics, 325 (2025) 111273.

[3] Ruoxi Yang , Xiao Han , Xia Yang , Xiaozhou Xia. Study of the optimal layout of U-bolt restraints used for High-Energy pipelines based on parametric modeling. Annals of Nuclear Energy 223 (2025) 111656.

[4] Changgen Liu, Xiaozhou Xia. A Modified Nonlocal Macro–Micro-Scale Damage Model for the Simulation of Hydraulic Fracturing. Modelling 2025, 6, 58.

[5] Yanhe Qiao, Panyong Liu, Xin Gu, Xiaozhou Xia, Qing Zhang. A coupled thermo-hygro-mechanical peridynamic model for mechanismanalysis of soil desiccation cracking. Computers and Geotechnics 180 (2025) 107073.

[6] Feng Xue, Jingyu Wang, Xiaozhou Xia, Xiaofan Gou. A nonlocal macro-meso-scale damage model based modeling forcrack propagation in ferroelectric materials. Engineering Fracture Mechanics 314 (2025) 110712.

[7] Sai Ying, Yapeng Cao, Qing Zhang, Xiaozhou Xia, Guoyu Li, Fengxi Zhou, Tao Wen. The effect of salt on the freezing temperature of saline soil. Soils and Foundations 65 (2025) 101566.

[8] 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 130 (2024) 104288.

[9] 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, 432,(2024)117315.

[10] 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 133 (2024) 104540.

[11] Xiaozhou Xia, Changsheng Qin, Guangda Lu, Xin Gu, Qing Zhang. Simulation of Corrosion-induced cracking of reinforced concrete based on fracture phase field method.CMES-Computer Modeling in Engineering & Sciences, 2024;138(3):2257-2276.

[12] Xingmiao Wang, Feng Xue, Xin Gu, Xiaozhou Xia. Simulation of Frost-Heave Failure of Air-Entrained Concrete Based on Thermal-Hydraulic-Mechanical Coupling Model, Materials 17 (2024) 3727.

[13] Xiaozhou Xia, Xinxiang Xu, Xin Gu, QingZhang. An Efficient Seepage Element Containing Drainage Pipe. Water 2024, 16, 1440.

[14] Panyong Liu, Xin Gu, Yang Lu, Xiaozhou 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 172 (2024) 106473.

[15] 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.

[16] Xuandong Chen, Xin Gu, Panyong Liu, Jiamin Zhang, Xiaozhou Xia, Qing Zhang. Peridynamic model for chloride diffusion-reaction in concrete reflecting mesostructure characteristic. Int J Fract (2024) 245:121-135.

[17] Changyuan Shen, Xiaozhou Xia, Dake Yi, Zhongmin Xiao. A new cyclic cohesive zone model for fatigue damage analysis of welded vessel. Theoretical and Applied Mechanics Letters 14 (2024) 100531.

[18] 应赛, 夏晓舟, 文桃, 周凤玺, 曹亚鹏, 李国玉, 章青. 基于核磁共振技术的土体冻结特征曲线试验研究. 岩土工程学报, 2024, 46(7):1437-1444.

[19] 张开云, 夏晓舟, 易大可, 张家升. 基于CEL有限元法的大管径钢管桩贯入海基过程的承载力分析. 力学季刊. 2023 ,44 (02): 395-406.

[20] 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.

[21] Panyong Liu, Xin Gu, Yang Lu, Xiaozhou Xia, Erdogan Madencid, 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 406 (2023) 115896.

[22] 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, 108.

[23] Xin Gu, Xing Li, Xiaozhou Xia, Erdogan Madenci, Qing Zhang. A robust peridynamic computational framework for predicting mechanical properties of porous quasi-brittle materials. Composite Structures 303 (2023) 116245.

[24] Fei Yang, Xin Gu, Xiaozhou Xia, Qing Zhang. A peridynamics-immersed boundary-lattice Boltzmann method for fluid-structure interaction analysis.Ocean Engineering 264 (2022) 112528.

[25] Xiaobing Wang, Xiaozhou Xia, Xue Zhang, Xin Gu, Qing Zhang. Probabilistic Risk Assessment of Soil Slope Stability Subjected to Water Drawdown by Finite Element Limit Analysis. Appl. Sci. 2022, 12, 10282.

[26] 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.

[27] 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开裂的分析. 铁道建筑, 2022, 62(12):40-45.

[28] 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 (2023) 39:607–624.

[29] Aijiu Chen, Xiaoyan Han, Zhihao Wang, Qing Zhang, Xiaozhou Xia, Yanting Ji, Keliang Li. Analytical evaluation of compressive strength for concrete with rubber fine aggregates and the predictive model. Construction and Building Materials. 2022,345,128359.

[30] 童靳于, 章青, 夏晓舟, 郑近德, 潘海洋. 一种基于领域自适应的跨工况滚动轴承故障诊断新方法. 固体力学学报, 2021,42(3):267-276.

[31] Xuandong Chen, Xin Gu, Xiaozhou Xia, Xing Li, Qing Zhang. A Chemical-Transport-Mechanics Numerical Model for Concrete under Sulfate Attack. Materials 2021,14,7710.

[32] Chen Wanhan, Gu Xin, Zhang Qing, Xia Xiaozhou. A refined thermo-mechanical fully coupled peridynamics with application to concrete cracking. Engineering Fracture Mechanics, 2021, 242: 107463.

[33] Xia Xiaozhou, Chen Fei, Gu Xin, Fang Ningzhi, Zhang Qing. Interfacial debonding constitutive model and XFEM simulation for mesoscale concrete, Computers and Structures, 2021, 242(1):106373.

[34] Zhang Yunfa, Xia Xiaozhou, Wu Zhenjie, Zhang Qing. The Effect of Initial Defects on Over all Mechanical Properties of Concrete Material, CMC-COMPUTERS MATERIALS & CONTINUA, 2020, 62(1):413-442. 

[35] 徐政, 夏晓舟, 章青, 热-水-力作用下混凝土细观XFEM全耦合建模, 武汉理工大学学报(交通科学与工程版), 2019, 43(6): 1069-1073+1078.

[36] Mingqi Qin, DiansenYang, Weizhong Chen, Xiaozhou Xia. Hydraulic fracturing network modeling based on peridynamics. Engineering Fracture Mechanics, 2021,247:107676.

[37] 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) 37(7):1104-1135.

[38] 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.

[39] Yun Zhou, Diansen Yang, Xi Zhang, Weizhong Chen, Xiaozhou Xia. Numerical investigation of the interaction between hydraulic fractures and natural fractures in porous media based on an enriched FEM. ENGINEERING FRACTURE MECHANICS,2020, 235,107175.

[40] Diansen Yang, Yun Zhou, Xiaozhou Xia, Shuitao Gu, Qingrong Xiong, Weizhong Chen. Extended finite element modeling nonlinear hydro-mechanical process in saturated porous media containing crossing fractures. COMPUTERS AND GEOTECHNICS,2019,111 , 209-221.

[41] 李双, 夏晓舟, 裴磊. 考虑渗流应力耦合的XFEM水压致裂模拟. 人民黄河. 2019,41(05):106-113.

[42] Fenghua Yuan, Qing Zhang, Xiaozhou Xia. Effect of Reinforcement Corrosion Sediment Distribution Characteristics on Concrete Damage Behavior. CMC-COMPUTERS MATERIALS & CONTINUA, 2019, 58 (3) ,777-793.

[43] Xin Gu, Qing Zhang, Erdogan Madenci, Xiaozhou Xia. Possible causes of numerical oscillations in non-ordinary state-based peridynamics and a bond-associated higher-order stabilized model, Computer Methods in Applied Mechanics and Engineering, 2019, 357: 112592.

[44] 房宁志, 夏晓舟, 章青. 混凝土细观扩展有限元法建模及宏观力学性能估算, 河南科学, 2019, 37 (5): 762-770.

[45] 房宁志，夏晓舟，章青. 混凝土内部界面过渡区脱开过程的扩展有限元分析. 武汉理工大学学报（交通科学与工程版），2018,42(6)：981-985,991.

[46] 肖建强, 夏晓舟.三相混凝土抗压强度的细观力学研究. 混凝土. 2018,11:56,57,66.

[47] 李爽，夏晓舟. 小孔对裂尖影响的扩展有限元分析. 能源与保护，2017,11:228-233,237.

[48] 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.

[49] Xuecong Liu, Zhang, Qing, Xiaozhou Xia. The stable explicit time stepping analysis with a new enrichment scheme by XFEM. Computers Materials & Continua, 2017,53(3):202-222.

[50] 刘学聪，章青，夏晓舟.  一种新型裂尖加强函数的显式扩展有限元法. 工程力学, 2017, 34 (10): 10-18.

[51] 王荣华, 章青,  夏晓舟. 含裂隙饱和多孔介质流-固耦合的扩展有限元分析, 岩土力学,  2017.38(5): 1489-1496.

[52] 肖建强, 夏晓舟. 轻骨料混凝土抗压强度的影响因素研究. 长江科学院院报, 2017, 35(11).

[53] 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.

[54] 吴贞杰，夏晓舟，章青. 粘聚单元嵌入技术及其在混凝土细观分析模型中的应用. 河海大学学报（自然科学版），2017,45(6):535-542.

[55] Xiao Zhou Xia, Qun Jiang, Qing Zhang. Calculation of the derivative of interpolation shape function for three-dimensional natural element method. Journal of the Chinese institute of engineers, 2016,39 (3):363–371.

[56] Kefeng Wang, Qing Zhang, Xiaozhou Xia, Lei Wang, Xuecong Liu. Analysis of hydraulic fracturing in concrete dam considering fluid–structure interaction using XFEM-FVM model.Engineering Failure Analysis 57 (2015) 399–412.

[57] Lei Shen, Qingwen Ren, Ning Xia, Liguo Sun, Xiaozhou Xia. Mesoscopic numerical simulation of effective thermal conductivity of tensile cracked concrete. Construction and Building Materials 95 (2015) 467-475.

[58] Qun Jiang, Xiaozhou Xia, Qing Zhang. The influence of the air-entraining water- reducing agent on the mechanical properties of the recycled concrete. Materials Research Innovations 2015, 19 (S5):514-520.

[59] 王克峰，章青，夏晓舟. 考虑流固耦合效应的重力坝水力劈裂模拟，应用数学和力学，2015, 36(9): 970-980.

[60] 邵冬冬，章青，夏晓舟. 混凝土等颗粒型材料的偶极效应分析. 河海大学学报，2014，42（6）：513-517.

[61] Xiaozhou Xia, Qing Zhang, Hong Wang, Qun Jiang. The numerical simulation of the crack elastoplastic extension based on the extended finite element method. Mathematical Problems in Engineering. Volume 2013, 2013.

[62] Xia XiaoZhou, Zhang Qing, Jiang Qun, Xiao JianQiang. Study on the Macromesoscopic  Yield Criterion of Concrete Material. Advances in Condensed Matter Physics. 2013. 190826.

[63] Zhang Qing, Zhuo Jiashou, Xia Xiaozhou. The Partitioned Mixed Model of Finite Element Method and Interface Stress Element Method with Arbitrary Shape of Discrete Block Element. Mathematical Problems in Engineering. 2013. 950696.

[64] 肖建强, 章青, 夏晓舟. 基于Mori-Tanaka 法的混凝土强度初步研究. 混凝土, 2013(9):18-21.

[65] 章青, 刘宽, 夏晓舟, 杨静. 广义扩展有限元及其在裂纹扩展分析中的应用. 计算力学学报，2012, 29(3):427-432.

[66] 王红, 袁鸿, 夏晓舟, 章青. 基于最小耗能原理的塑性应变流动法则. 上海大学学报（自然科学版）, 2012, 18(4):390-395.

[67] ZHANG Qing, WANG ZhiQiang, XIA XiaoZhou. Interface stress element method and its application in analysis of anti-sliding stability of gravity dam. Science in China Series E: Technological Sciences. 2012, 55(12):3285-3291.

[68] Aijiu Chen, Xiaozhou Xia, Qing Zhang, Ming Wu. The meso-level numerical experiment research of the mechanics properties of recycled concrete. Journal of Software. 2012,7(9): 1932-1940.

[69] Xiaozhou Xia, Qing Zhang, Hong Wang, Shuai Yang. The numerical simulation of interface crack propagation without re-meshing. Science in China Series E: Technological Sciences.2011,54(1):1923-1929.

[70] Xiaozhou Xia, Qing Zhang, Pizhong Qiao, Lijuan Li. The interaction between cracks and the effect of micro-crack zone on main crack tip. Applied mathematics and mechanics.2010.31(1).67-76.

[71] Qing Zhang, Xiaozhou Xia. A macro-meso constitutive law for concrete considering imperfect interface and nonlinear matrix. Science in China Series E: Technological Sciences.2009,52(3):634-640.

[72] Hongchang Qu, Xiaozhou Xia, Zhiqiang Xiong. Numerical Simulation of Quasi-Brittle Fracture in Concrete Structures with Extended finite element method. (Advanced Materials Research Vols.) Advances in Structures. 2011,163-167:1837-1843.

[73] 肖建强，夏晓舟，章青. 引气量对混凝土力学性质影响的研究. 武汉理工大学学报，2011. 33(5):134-146.

[74] 蒋群, 夏晓舟, 章青. 基于能量密度支函数的混凝土宏细观屈服准则的构建, 三峡大学学报(自然科学版). 2009.12(6):40-44.

[75] 蒋群, 夏晓舟, 陈爱玖, 章青. 引气减水剂对再生混凝土力学性质的影响研究. 三峽大学学報(自然科学版). 2009;31(3):46-51.

[76] 夏晓舟，陈爱玖，刘锋，章青．基于渐变网格剖分方法的再生混凝土细观数值试验．中山大学学报（自然科学版）增刊, 2008,11(47): 11-14

[77] 夏晓舟, 章青. 含两类附加函数的扩展等参有限元法. 计算力学学报,2008.25(1):41-47.

[78] 夏晓舟, 章青, 刘光焰, 汤书军. 混凝土宏观力学参数估算研究现状及发展趋势. 河海大学学报（自然科学版）, 2007, 35(4):438-443.

[79] 夏晓舟, 章青.  混凝土细观损伤破坏过程的数值模拟.河海大学学报 (自然科学版), 2007, 35 (3): 301-307.

[80] 刘光焰, 夏晓舟, 蒋定宇. 基于人工神经网络的结构随机响应分析. 桂林理工大学学报, 2006, 26(2):205-208.

[81] 夏晓舟, 章青, 李国华, 徐道远, 刘光焰. 模拟不连续介质的非连续有限元法. 河海大学学报 (自然科学版),2005,33(6):682-687.

[82]燕柳斌，李国华，夏小舟. 地基基础—坝体体系动力特性及地震反应分析的有限元与无限元耦合法. 广西大学学报 (自然科学版),2003,28(3):249-253.

南方计算力学大会组织委员会委员

江苏省力学学会会员