主要论文著作 Professional Journals: (*,Corresponding author) 1. Zhuang Chen, Ji Wan, Chenxi Xiu, Xihua Chu*, Xianyang Guo. A bond-based correspondence model and its application in dynamic plastic fracture analysis for quasi-brittle materials, Theoretical and applied fracture mechanics,2021,113,102941. 2. Lianxiong Chen; Ji Wan; Xihua Chu; Hui Liu*. A parameterized level set method for structural topology optimization based on the Cosserat elasticity, Acta mechanica Sinica.2021 https://doi.org/10.1007/s10409-020-01045-z 3. Xianyang Guo,Zhuang Chen,Xihua Chu*,Ji Wan. A plane stress model of bond-based Cosserat peridynamics and the effects of material parameters on crack patterns, Engineering analysis with boundary elements:2021,123:48-61. 4. Zhuang Chen, Xihua Chu*. Peridynamic modeling and simulation of fracture process in fiber-reinforced concretes, Computer modeling in engineering & sciences,2021. (accepted) 5. YL, Li, WP Wu*, XH Chu, WL Zou*. Effects of stress paths on triaxial compression mechanical properties of QH-E lunar soil simulant studied by DEM simulation, Granular matter, 2020,22:32. 6. Lian Wang, Xihua Chu*, Ji Wan, Chenxi Xiu. Implementation of micropolar fluids model and hydrodynamic behavior analysis using user-defined function in FLUENT, Advances in mechanical engineering,2020,12(7):1-12. 7. Lian Wang, Xihua Chu*, Optimization analysis on collection efficiency of vacuum cleaner based on two-fluid and CFD-DEM model. Advances in computational design, 2020,5: 261-276. 8. Chenxi Xiu, Xihua Chu*, et al. A micromechanics-based micromorphic model for granular materials and prediction on dispersion behaviors, Granular matter, 2020,22:74. 9. Chenxi Xiu, Xihua Chu*. Prediction on dispersion in elastoplastic unsaturated granular media, Theoretical and applied mechanics letters,2020,10:74-78. 10. Jiao Wang, Xihua Chu*, Chenxi Xiu, Qinghui Jiang. Stress wave in monosized bead string with various water contents, Advanced Powder technology,2020,31:993-1000. 11. Chenxi Xiu, Xihua Chu*. A micromorphic elastoplastic model and finite element simulation on failure behaviors of granular materials, Int J Numer Anal Methods Geomech. 2020; 44:484–515. 12. J wan, Z Chen, X Chu*, H, Liu. Dependency of single-particle crushing patterns on discretization using peridynamics. Powder technology,2020,366:689-700. 13. Jiao Wang, Xihua Chu*, Energy transfer and influence of excitation frequency in granular materials from the perspective of Fourier transform, Powder Technology,2019, 356:493-499. 14. Zhuang Chen, Ji Wan, Xihua Chu*, Hui Liu. Two Cosserat peridynamic models and numerical simulation of crack propagation, Engineering fracture mechanics, 2019, 211:341-361. 15. J wan, Z Chen, X Chu*, H,Liu. Improved method for zero-energy mode suppression in peridynamic correspondence model, Acta Mech. Sin. (2019). https://doi.org/10.1007/s10409-019-00873-y. 16. Jiao Wang, Xihua Chu*. Impact energy distribution and wavefront shape in granular material assemblies, Granular Matter (2019) 21: 23. https://doi.org/10.1007/s10035-019-0880-z. 17. Zhixiong Zhang, Lian Wang, Yanran Wang, Xihua Chu*. Discrete element simulation on mixing of granular materials in rotated container, Engineering analysis with boundary elements, 2019,106:20-26. 18. Yunli Li, Weilie Zou*, Wenping Wu*, Lun Chen, Xihua Chu. Triaxial compression tests of QH-E lunar soil simulant under constant mean principal stress path using discrete element method simulations, Granular matter,2018:20,79 19. Jiao Wang, Xihua Chu*. Compressive Wave Propagation in Highly Ordered Granular Media Based on DEM, International Journal of Nonlinear Science and Numerical Simulation, DOI: 10.1515/ijnsns-2017-0213 20. Jiao Wang, Xihua Chu*, Junbo Zhang, Hui Liu. The Effects of Microstructure on Wave Velocity and Wavefront in Granular Assemblies with Binary-sized Particles, International journal of Solids and Structures. 2019,159:156-162. 21. Ping Fu, Hui Liu, Xihua Chu*, Wenzhong Qu. Multiscale finite element method for a highly efficient coupling analysis of heterogeneous magneto-electro-elastic media, International Journal for multiscale computational engineering, 2018, 16(1):77-100. 22. Chenxi Xiu,Xihua Chu*. A micromechanics-based gradient model and the effect of high-order stress and particle rolling on localizations for granular materials, granular matter, 2017, 19:87. 23. Ping Fu, Hui Liu*, Xihua Chu. An efficient multiscale computational formulation for geometric nonlinear analysis of heterogeneous piezoelectric composite, composite structures, 2017, 167:191-206. 24. Jiao Wang, Xihua Chu*. Heterogeneity of particle assemblies and discrete element simulation on its mechanical behaviors, Powder technology, 2017,314:59-68. 25. Jiangfang Chang, Xihua Chu*, Yuanjie Xu*. The role of non-coaxiality in the simulation of strain localization based on classical and Cosserat continua, Int. J. Numer. Anal. Meth. Geomech. 2017,41:382-399. 26. LunLun Zhou, Xihua Chu*, Xue Zhang, Yuanjie Xu. Numerical investigations on breakage behaviour of granular materials, Geomechanics and Engineering, An International Journal, 2016, 11(5):639-655. 27. Ping Fu, Hui Liu, Xihua Chu*, Yuanjie Xu.A Multiscale Computational Formulation for Gradient Elasticity Problems of Heterogeneous Structures,international journal of computational mechanics, 2016,13:05. 28. Hongxiang Tang*, Yifeng Dong, Xihua Chu, Xing Zhang, The Influence of Particle Rolling and Imperfections on the Formation of Shear Bands in Granular Materials, granular matter, 2016, 18(1):1-12. 29. Xihua Chu*, Cun Yu, Chenxi Xiu, Yuanjie Xu. Two scale modeling of behaviors of granular structure: size effects and displacement fluctuations of discrete particle assembly, structure engineering and mechanics. 2015, 55, 2: 315-334. 30. Hui Liu, Xiaoyu Sun, Yuanjie Xu, Xihua Chu*. A hierarchical multilevel finite element method for mechanical analyses of periodical composite structures, Composite Structures 2015, 131:115-127. 31. Cu Yu, Xihua Chu*, Yuanjie Xu. A simulation based on the Cosserat continuum model of the vortex structure in granular materials, Acta Mechanica Solida Sinica, 2015,28:182-186. 32. Hui Liu, Xiaoyu Sun, Yuanjie Xu, Xihua Chu*. A new adaptive multiscale method based on the estimate of residual forces for static analysis of heterogeneous materials, finite elements in analysis and design,2015,101,34-45. 33. Jiangfang Chang, Xihua Chu*, Yuanjie Xu. A softening hyperelastic model and simulation of the failure of granular materials, Geomechanics and engineering, 2014, 7, 4:335-353. 34. Jiangfang Chang, Xihua Chu*, Yuanjie Xu. Finite element analysis of failure in transversely isotropic geomaterials. International journal of geomechanics, 2015,15:04014096-1-14 35. L.L. Zhou, X.H. Chu*, Y.J. Xu. Evolution of anisotropy in granular materials: effect of particle rolling and particle crushing, strength of materials, 2014, 46, 2: 214-220. 36. Xiaoyu Sun, Runni Wu, Re Xia, Xihua Chu, Yuanjie Xu*. Effects of stone-wales and vacancy defects in atomic-scale friction on defective graphite. Appl. Phys. Lett, 2014, 104, 1839. 37. Xihua Chu*, Cun Yu, Yuanjie Xu. The dilatancy and numerical simulation of failure behavior of granular materials based on Cosserat model, Interaction and multiscale mechanics, an international journal, 5(2):157-168,2012 38. Xikui Li*, Xihua Chu, D.C. Sheng. A saturated discrete particle model and characteristic based SPH method in granular materials. Int. J. Numerical Methods in Eng, 72: 858-882, 2007 39. Xikui Li*, Xihua Chu, Y.T.Feng. A discrete particle model and numerical modelling of the failure modes of granular materials. Engineering Computations, 22(8): 894-920, 2005. 40. 潘宇,王蕉,楚锡华*,接触行为对颗粒材料中应力波波速与能量的影响,东北大学学报自然科学版(录用) 41. 张志雄,楚锡华*,王雁然,应用力学学报(录用). 42. 修晨曦,楚锡华*,颗粒材料修正的微形态连续体模型研究,重庆大学学报,2020, 43. 陈壮,万冀,楚锡华*, 近场动力学框架下的键基对应模型,计算力学学报,2020 44. 修晨曦,楚锡华*. 基于微形态模型的颗粒材料中波的频散现象研究,力学学报,2018,50(2):315-328. 45. 丁巍,楚锡华*,常江芳. 横观各向同性岩土材料的应变局部化分析,地震工程学报,2017,39(3):481-488. 46. 刘胜,楚锡华*,徐远杰,何勇.薄板T型焊残余应力数值模拟与试验研究,热加工工艺,2017,46(3):238-241. 47. 任灵,楚锡华*,周伦伦,徐远杰.应力历史对颗粒材料强度和变形特征影响的离散元模拟,应用力学学报,2017,34(2):203-209. 48. 王蕉,楚锡华*,姜清辉. 一个与弹性应变能相协调的脆性横观各向同性材料破坏准则,岩土力学,2017,38(8):2221-2227. 49. 周伦伦,楚锡华*,徐远杰. 基于离散元法的真三轴应力状态下砂土破碎行为研究,岩土工程学报,2017,39(5):839-847. 50. 丁巍,王蕉,姜清辉,楚锡华*.横观各向同性页岩的基本性质及破坏准则研究,中国水运,2016,16(3):207-212. 51. 常江芳,徐远杰*, 楚锡华.横观各向同性岩土材料应变局部化现象的有限元模拟,华南理工大学学报(自然科学版),2016,44(10):70-80. 52. 卓小翔,刘辉,楚锡华*,徐远杰. 非均质材料动力分析的广义多尺度有限元法,力学学报,2016,48 (2): 378-386. 53. 楚锡华*,修晨曦,常江芳,徐远杰,脆性颗粒材料的超弹性软化模型及应变局部化模拟,东北大学学报,自然科学版, 2016, 37(5): 731-735. 54. 常江芳,楚锡华*,徐远杰. 横观各向同性岩土结构极限承载力和变形局部化的数值研究, 东北大学学报,自然科学版,2016,37(7):1022-1027. 55. 夏明锬,徐远杰*,楚锡华.一种考虑尺寸效应的颗粒材料流变模型及其验证,工程力学,2015,32(7), 176-183. 56. 付平, 楚锡华*,余村,徐远杰,屈文忠. 基于扰动状态概念的颗粒材料应变局部化行为模拟,华南理工大学学报(自然科学版),2014,42:4:59-69. 57. 陈龙,楚锡华*,徐远杰. 基于CLoE亚塑性模型的密砂循环荷载下力学行为模拟,岩土力学,2015,36:1598-1605. 58. 楚锡华*,徐远杰,武文华. 颗粒材料的数值样本描述及生成方法评述. ylzzcom永利总站线路检测学报(工学版),2014,47,5:671-679. 59. 冯超,徐远杰,楚锡华*. 剪胀性对混凝土损伤破坏影响的数值模拟. 武汉理工大学学报,2014,36,4:121-127. 60. 陈龙,楚锡华*,张明龙,徐远杰. 基于CLoE与Gudehus-Bauer亚塑性模型的颗粒材料应变局部化对比研究, 岩土力学,2013,11,3306-3314. 61. 余村,楚锡华*,唐洪祥,徐远杰. 基于Cosserat连续体的颗粒破碎影响研究. 岩土力学,2013(S1)67-72 62. 徐远杰,夏明锬,楚锡华*. 基于多刚体动力学模型的漂浮式拦污排的平衡形状和张力, 应用数学与力学,2013 63. 楚锡华*,沈顺,余村,姜清辉. 考虑破碎影响的颗粒材料亚塑性模型及应变局部化模拟, 计算力学学报29(3):375-380,2012 64. 楚锡华*,孔科,徐远杰.基于扰动状态概念与E-B模型的粗粒料力学行为模拟.,应用力学学报,2012 65. 徐远杰,楚锡华*,余村. Lode角对应力张量偏导数的基本性质,固体力学学报, 2012 66. 刘其鹏,李锡夔*,楚锡华.基于细观方向平均模型的颗粒材料宏观Cosserat连续体本构关系,计算力学学报 28(5):682-687,2011 67. Chu Xihua*. The generation methods for numerical specimen of granular materials by sort of coordinates. Rock and Soil Mechanics,(in Chinese) 32(9)2852-2857,2011 68. Liu Chenghao, Zhao Honghua, Chu Xihua*, et al. Experimental research on the critical state behavior of fly ash. Journal of Wuhan University of technology (in Chinese), 33(6):93-98, 2011. 69. Chu Xihua*, Li Xikui, Zhang Minglong et al. The hypoplastic model based on 2nd P-K stress rate and Green strain rate for granular materials. Chinese Journal of Theoretical and Applied Mechanics, 2010,42(5),877-886 70. Xu Yuanjie*, Pan Jiajun, Chu Xihua et al. Study on Constitutive model for rockfill material based on the disturbed state concept. Engineering Mechanics, (in Chinese) 27:154-161,2010 71. Chu Xihua*, Wang Zhengzhong. Fractal model and permeability of granular soil structure. Journal of water resource and architectural engineering (in Chinese).8(4):72-75,2010 72. Chu Xihua*, Xu Yuanjie. Studies on transformation from M-C criterion to D-P criterions based on distortion energy density. Rock and Soil Mechanics (in Chinese),30:2985-2990,2009 73. Chu Xihua*, Xu Yuanjie, Kong Ke. Energy equivalent method for calculating parameters of M-C and D-P criteria and error analysis. Chinese Journal of Rock Mechanics and Engineering, 28:1666-1673, 2009 74. Chu Xihua*, Zhou Jianping, Xu Yuanjie. Numerical simulation for jamming during the discharge of granular materials from a silo. Chinese Journal of Computational Mechanics, 23:342-346,2009 75. Chu Xihua*. Evolution of porosity and pore water pressure of granular materials based on continuum model. Chinese Journal of Geotechnical Engineering, 31:1225-1227,2009 76. Chu Xihua, Li Xikui*. A discrete particle model and characteristic based SPH method for fluid-solid interaction of granular materials filled with liquids. Chinese Journal of Computational Mechanics, 24:719-726,2007 77. Chu Xihua, Li Xikui*. A model of discrete particles and seepage of interstitial water in granular materials and numerical simulation. Chinese Journal of Rock Mechanics and Engineering, 25:2407-2415,2006 78. Chu Xihua, Li Xikui*. Hierarchical multi-scale discrete particle model and crushing simulation. Journal of Dalian University of Technology (in Chinese),46:319-326,2006
Conference Proceeding: 79. Lunlun Zhou, Xihua Chu*, Yuanjie Xu. DEM investigation on characteristics of rolling resistance for modeling particle shape, Doi:10.1051/epjconf/e2016-62000-4. 80. ChenXi Xiu, Xihua Chu. A gradient model for granular materials based on thermos-micromechanics, Xikui Li et al.(eds.) Proceedings of the 7th international conference on discrete element methods, Springer proceeding in physics 188, pp409-421. 81. Xihua Chu, Cun Yu, Yuanjie Xu. Numerical simulation of the macro-micro mechanical behavior of granular materials based on a two-scale method. Geomechanics from micro-macro, Soga et al. (Eds). 759-764. 82. 周伦伦,楚锡华,徐远杰. 中主应力对颗粒破碎影响的离散元模拟. 颗粒材料计算力学研究进展,2014. 83. Xihua Chu, Lunlun Zhou, Yuanjie Xu. Anisotropy of Microstructure and Force Chains in Granular Materials, AIP Conf. Proc. 1542, 421 (2013). 84. Xihua Chu, Lunlun Zhou, Yuanjie Xu. AN INSIGHT ON THE RELATIVE MOTION BETWEEN CONTACT PARTICLES, 6th International Conference on Discrete Element Methods, August 5-6, 2013. 85. 楚锡华,周伦伦,徐远杰. 可破碎颗粒材料组构各向异性演化及剪胀性的离散元模拟,颗粒材料计算力学研究进展,576-582,2012 86. 楚锡华,徐远杰,连续介质力学中变形梯度张量客观性表述的分歧,固体力学学报,2011. 87. 楚锡华,常江芳,徐远杰.基于应变能极限概念的颗粒材料增量本构模型, 中国力学大会,2013.8.19-22. 重庆. 88. Chu Xihua, Wang Liang, Xu Yuanjie. The effects of particle friction and crushing on macro-mechanical behavior of granular materials. Geomechanics and Geotechnics: From Micro to Macro. 107-112, CRC Press,2010 Jiang MJ ,Liu F,Bolton M. Edited 89. Chen Zhen, Xu Yuanjie, Chu Xihua, Li Xudong, Tang bihua. Intake towers flexible seismic dynamic analysis and shape optimization. (ISTP), 12th International Conference on inspection, appraisal, repairs and maintenance of structures.23-25 April 2010, Yantai, China 90. Chu xihua,Chang Jiangfang, Jiang Qinghui, Xu Yuanjie. Numerical simulation of Progressive failure in transversely isotropic geomaterials,Advances in heterogeneous materials mechanics 2011, 965-968, Destech Publications,2011,Fan JH, Zhang JQ, et al. Edited 91. Chu Xihua, Zhang Minglong, Yu Cun. et al. A Hypoplastic Model Based on 2nd P-K Stress Rate and Numerical Modeling of Localization of Granular Materials,WCCM2010,19-23 July,2010,Sydney, Australia. 92. Li Xikui, Chu Xihua. A saturated discrete particle model and numerical simulation of coupled hydro-mechanical behaviors in granular materials. WCCM 7, 2006, July 16-22, Los Angeles, California, USA. 教学论文: 1.楚锡华,徐远杰. 基于教育目标分类学的工程力学课堂教学探讨.力学与实践,2015,117-119
|