赵仕威 - 华南理工大学 - 土木与交通学院

个人简介

研究生招生启事：课题组招收具有土木、水利、力学、计算机等相关专业背景的本科生、硕士生加盟，开展多学科交叉基础研究。课题组学生将有机会被推荐到境外知名高校进行交流学习或继续深造。若有意向，请发简历至赵博士邮箱联系。赵仕威博士，男，汉族，重庆人。赵博士主要从事颗粒介质力学与多尺度模拟工作，在离散元非球颗粒建模理论与技术、颗粒形态学特征的宏细观作用机理、连续-离散多尺度模拟方法与技术方面取得了一系列成果，在岩土工程(Géotechnique、Int. J. Numer. Anal. Methods Geomech.、Acta Geotech. 等)、计算力学(Comput. Methods Appl. Mech. Eng.、Int. J. Numer. Methods Eng. 等)、固体与颗粒力学(Int. J. Solids Struct.、 Comput. Phys. Commun.、Phys. Rev. E 等)领域高影响力期刊发表了SCI Q1/Q2 论文16篇。赵博士曾入选全国人社部“香江学者计划”（2018），香港科技大学研究助理教授（2020）。工作经历 à 2021.01至现在，华南理工大学，土木与交通学院岩土工程系，副教授 à 2018.10至2020.10，香港科技大学，土木与环境工程系，香江学者博士后教育经历 à 2013.09至2018.06，华南理工大学，岩土工程，博士（直博） à 2015.09至2017.09，美国Oregon State University，岩土工程，联合培养博士 à 2009.09至2013.06，华南理工大学，水利水电工程，学士科研项目 à 国家自然科学基金青年项目，51909095，2020-2022，25万，主持 à 广东省自然科学基金面上项目，2020A1515011525，2020-2021，10万，主持 à 中央高校基本科研业务费面上项目，D2192710，2019-2020，10万，主持

研究领域

à 岩土工程数值方法与高性能计算 à 颗粒力学与岩土力学 à 多场多尺度耦合方法与模拟 à 工程地质灾害模拟与防治

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1.期刊论文（* 通讯作者, 指导学生） [1] Chen, H., Zhao, S.*, Zhao, J., Zhou, X. (2021). The microscopic origin of K0 on granular soils: the role of particle shape, Acta Geotechnica, accepted. (JCR Q1, IF 4.350) [2] Zhao S.*, Zhao J., Lai Y. (2020). Multiscale modeling of thermo-mechanical responses of granular materials: A hierarchical continuum-discrete coupling approach, Computer Methods in Applied Mechanics and Engineering, 367, 113100. (JCR Q1, IF 5.763) [3] Zhang, C., Zhao, S.*, Zhao, J., Zhou, X. (2021). Three dimensional Voronoi analysis of realistic grains packing: an XCT assisted Set Voronoi tessellation framework. Powder Technology, 379, 251–264. (JCR Q1, IF 4.142) [4] Zhao, S.*, Zhao, J., Liang, W. (2021). A thread-block-wise computational framework for large-scale hierarchical continuum-discrete modeling of granular media. International Journal for Numerical Methods in Engineering, 122(2), 579–608. (JCR Q1, IF 2.866) [5] Zhao, S.*, Zhao, J. (2021). SudoDEM: unleashing the predictive power of discrete element method on simulation of non-spherical granular particles, Computer Physics Communications, 259, 107670. (JCR Q1, IF 3.627) [6] Zhao, S.*, Zhao, J., Guo, N., (2020). Universality of internal structure characteristics in granular media under shear, Physical Review E, 101(1), 012906. (JCR Q1, IF 2.353) [7] Chen, H., Zhao, S.*, Zhou, X., (2020). DEM investigation of angles of repose for super-ellipsoidal particles. Particuology, 50: 53–66. (JCR Q2, IF 2.787) [8] Zhao S.*, Zhao J. (2019). A poly-superellipsoid-based approach on particle morphology for DEM modeling of granular media. International Journal for Numerical and Analytical Methods in Geomechanics, 43(13): 2147–2169. (JCR Q2, IF 2.814) [9] Zhao, S., Evans, T.M., Zhou, X.*, (2018). Effects of curvature-related DEM contact model on the macro- and micro-mechanical behaviours of granular soils, Géotechnique, 68(12): 1085–1098. (JCR Q1, IF 3.830) [10] Zhao, S.*, Evans, T.M., Zhou, X., (2018).Shear-induced anisotropy of granular materials with rolling resistance and particle shape effects, International Journal of Solids and Structures, 150: 268–281. (JCR Q1, IF 3.213) [11] Zhao, S., Evans, T.M., Zhou, X.*, (2018). Three-dimensional Voronoi analysis of sheared monodisperse ellipsoids, Powder Technology 323, 323–336. (JCR Q1), IF 4.142) [12] Zhao, S., Zhang, N., Zhou, X.*, Zhang, L., (2017). Particle shape effects on fabric of granular random packing. Powder Technology 310, 175–186. (JCR Q1, IF 4.142) [13] Zhao, S., Zhou, X.*, (2017). Effects of particle asphericity on the macro- and micro-mechanical behaviors of granular assemblies. Granular Matter 19, 38. (JCR Q2, IF 2.347) [14] Zhao, S., Evans, T.M., Zhou, X.*, Zhou, S., (2017). Discrete element method investigation on thermally-induced shakedown of granular materials. Granular Matter 19, 11. (JCR Q2, IF 2.347) [15] Zhao, S., Zhou, X.*, Liu, W., (2015). Discrete element simulations of direct shear tests with particle angularity effect. Granular Matter 17, 793–806. (JCR Q2, IF 2.347) [16] Zhao, S., Zhou, X.*, Liu, W., Lai, C., (2015). Random packing of tetrahedral particles using the polyhedral discrete element method. Particuology 23, 109– 117. (JCR Q2, IF 2.787) 2.其他重要成果 [17] 赵仕威;非球颗粒离散元开源软件SudoDEM, 开源项目主页https://sudodem.gith ub.io，源代码托管Github仓库https://github.com/SudoDEM/ [18] Zhao, S., Zhao, J., (2019). A Quick Guide to SudoDEM: A Discrete Element Code for Non-spherical Particles. Version 1.2, http://suo.im/5VbrC8 (71 pages) [19] PySetVoronoi: A Python interface for Set Voronoi Tessellation (https:// github.com/SwaySZ/PySetVoronoi) [20] 3D-histogram visualization of directional data (ResearchGate: 3D-histogram visualization of directional data)

学术兼职

审稿期刊 o Journal of Geotechnical and Geoenvironmental Engineering (ASCE) o Computer Methods in Applied Mechanics and Engineering (Elsevier) o Acta Geotechnica (Springer) o Journal of Engineering Mechanics (ASCE) o Computers and Geotechnics (Elsevier) o Engineering Geology (Elsevier) o Soil Dynamics and Earthquake Engineering (Elsevier) o International Journal for Numerical and Analytical Methods in Geomechanics (Wiley) o International Journal for Numerical Methods in Engineering (Wiley) o International Journal of Geomechanics (ASCE) o Part C: Journal of Mechanical Engineering Science (SAGE) o Nuclear Science and Techniques (Springer) o Powder Technology (Elsevier) o Granular Matter (Springer) o Multibody System Dynamics (Springer) o Materials (MPDI) o Studia Geotechnica et Mechanica (Sciendo)