个人简介
指导学科
门类:工学
一级学科:机械工程
二级学科:机械设计及理论
1.2020-10至今, 广西大学,机械工程学院,预聘副教授
2.2017-12至2020-08,北京大学,工学院,博士后
3.2013-09至2017-10,湖南大学,机械与运载工程学院,博士
4.2011-09至2013-06,湖南大学,机械与运载工程学院,硕士
5.2007-09至2011-06,湖南大学,机械与运载工程学院,学士
主讲课程
《工程力学》、《材料力学》
主持(参与)的主要科研项目
1. 国家自然科学基金委员会,青年科学基金,11902005,金属3D打印熔融与凝固过程的SFEM-SPH模拟研究,2020-01至2022-12, 27万元, 在研, 主持
研究领域
计算力学、流固耦合力学、冲击动力学、CAE软件开发与应用
近期论文
查看导师新发文章
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1.Long Ting, Zhang Zhilang, Liu Moubin. Multi-resolution technique integrated with smoothed particle element method (SPEM) for modeling fluid-structure interaction problems with free surfaces. Science China Physics, Mechanics & Astronomy. 2021, 64(8):41-62.
2.Long Ting, Huang Can, Hu Dean, Liu Moubin. Coupling edge-based smoothed finite element method with smoothed particle hydrodynamics for fluid structure interaction problems. Ocean Engineering, 2021, 225: 108772.
3.Long Ting, Pengying Yang, Liu Moubin. A novel coupling approach of smoothed finite element method with SPH for thermal fluid structure interaction problems. International Journal of Mechanical Sciences. 2020: 105558.
4.Long Ting, Hu Dean, Wan Detao, Zhuang Chen, Yang Gang. An arbitrary boundary with ghost particles incorporated in coupled FEM-SPH model for FSI problems. Journal of Computational Physics, 2017, 350: 166-183.
5.Long Ting, Hu Dean, Yang Gang, Wan Detao. A particle-element contact algorithm incorporated into the coupling methods of FEM-ISPH and FEM-WCSPH for FSI problems. Ocean Engineering, 2016, 123:154-163.
6.Zhang Zhilang, Long Ting, Chang Jianzhong, Liu Moubin. A smoothed particle element method (SPEM) for modeling fluid–structure interaction problems with large fluid deformations. Computer Methods in Applied Mechanics and Engineering, 2019, 356: 261-293.
7.Hu Dean, Long Ting, Xiao Yihua, Han Xu, Gu Yuantong. Fluid–structure interaction analysis by coupled FE–SPH model based on a novel searching algorithm. Computer Methods in Applied Mechanics and Engineering, 2014, 276, 276 :266-286.
8.Hu Dean, Long Ting, Liu Chunhan, Yang Gang, Han Xu. Swelling movement induced by underground explosion of aluminized explosive in multilayered compact material. International Journal of Rock Mechanics and Mining Sciences, 2014, 71:330-339.
9.Yang, P., Huang, C., Zhang, Z., Long, T., & Liu, M.. Simulating natural convection with high Rayleigh numbers using the Smoothed Particle Hydrodynamics method. International Journal of Heat and Mass Transfer, 2021, 166: 120758.
10.Zhang, Z. L., Khalid, M. S. U., Long, T., Chang, J. Z., & Liu, M. B.. Investigations on sloshing mitigation using elastic baffles by coupling smoothed finite element method and decoupled finite particle method. Journal of Fluids and Structures, 2020, 94: 102942.
11.Huang, C. , Long, T. , Li, S. M. , & Liu, M. B. . A kernel gradient-free sph method with iterative particle shifting technology for modeling low-reynolds flows around airfoils. Engineering Analysis with Boundary Elements, 2019, 106: 571-587.
12.Huang, C. , Long, T. , & Liu, M. B. . Coupling finite difference method with finite particle method for modeling viscous incompressible flows. International Journal for Numerical Methods in Fluids, 2019.
13.Weng, X. , Huang, C. , Long, T. , Li, S. M. , & Liu, M. B. . An integrated finite particle method with perfectly matched layer for modeling wave-structure interaction. Coastal Engineering Journal, 2019: 1-18.
14.Wan, D. , Hu, D. , Natarajan, S. , Bordas, S. P. A. , & Long, T. . A linear smoothed higher-order cs-fem for the analysis of notched laminated composites. Engineering analysis with boundary elements, 2017, 85: 127-135.
15.Detao Wan, Hu, D. , Natarajan, S. , Stéphane P.A. Bordas, & Long, T. . A linear smoothed quadratic finite element for the analysis of laminated composite reissner–mindlin plates. Composite Structures, 2017.
16.Wan, D. , Hu, D. , Yang, G. , & Long, T. . A fully smoothed finite element method for analysis of axisymmetric problems. Engineering Analysis with Boundary Elements, 2016, 72: 78-88.
17.Zhuang, C. , Yang, G. , Long, T. , & Hu, D. . Numerical comparison of removal and deposition for fully-distributed particles in central- and split-type air-conditioning rooms. Building and Environment, 2016, 112: 17-28.