教授

曾忠

日期:2017-08-11 作者: 点击:[]

个人简介

曾忠,工学博士,重庆大学教授,博士生导师,重庆大学期刊社副社长。致公党重庆市委会副主委,致公党沙坪坝区委会主委,重庆市沙坪坝区政协副主席(兼),重庆市人大代表。重庆市第二届学术技术带头人,入选教育部“新世纪优秀人才支持计划”。重庆市力学学会副理事长, 重庆市科学技术期刊编辑学会副理事长,重庆市高校期刊研究会副理事长,中国科学技术期刊编辑学会理事,非均质材料力学重庆市重点实验室副主任。《应用数学和力学》《流体动力学》等期刊编委,《重庆大学学报》常务副主编。


教育背景
1986.09 - 1990.07  工学学士   重庆大学 工程力学系
1990.09 - 1993.07  工学硕士  重庆大学 工程力学系
1996.10 - 1997.03  研修生     (日本)东北大学 金属材料研究所
1997.04 - 2000.03  工学博士   (日本)东北大学 金属材料研究所

工作经历
1993.07 - 1996.08  助教       重庆大学 工程力学系
1996.09 - 1996.09  讲师       重庆大学 工程力学系
2000.04 - 2000.08  教务辅佐员 (日本)东北大学金属材料研究所
2000.09 - 2002.03  助手       (日本)东北大学金属材料研究所
2002.04 - 2003.03  非常勤讲师(中核的研究机关研究员) (日本)东北大学金属材料研究所
2003.04 - 2005.03  外国人特别研究员 (日本)东北大学金属材料研究所
2003.10 - 2013.12  教授   重庆大学 资源及环境科学学院 工程力学系
其中:2004.09 -    博导   重庆大学
      2011.12 - 2012.02  客座教授   (日本)东北大学金属材料研究所
      2013.05 - 2013.11  (挂职)副主任 江阴高新技术创业园管委会
      2013.12 -           教授   重庆大学 航空航天学院 工程力学系
      2014.12 -           副社长 重庆大学期刊社
其中:2014.01 - 2014.03  客座教授   (日本)东北大学金属材料研究所
      2015.07 - 2015.08  客座教授   (日本)东北大学金属材料研究所

研究方向
从事流体力学基础理论、程序开发与并行及其应用的研究,主要包括基于谱元法(高精度的谱方法和有限元结合)的计算流体动力学程序开发及应用;基于谱元法和线性稳定性理论的对流稳定性研究,包括程序开发及其应用;基于谱元法与相场法的高精度多相流程序开发及应用;浮区法、微下拉法和提拉法晶体生长中的流体动力学研究;静态与动态磁场的对流控制,包括理论建模、基于有限体积法的二次程序开发及数值模拟;Lattice Boltzmann Method(LBM)理论研究、程序开发及数值模拟。主持和参加国家自然科学基金项目等科研项目30余项,发表期刊论文100余篇,其中包括Journal of Computational Physics, Physics of Fluids, Applied Thermal Engineering, Physical Review E, International Journal of Heat and Mass Transfer, Journal of Crystal Growth, Computers & Fluids等SCI检索期刊论文70余篇,完成书籍《Studies on Flow Instabilities in Bulk Crystal Growth》章节Oscillatory convection of LiCaAlF6 melt in Czochralski model撰写。

最新出版物
论文发表(2010-):
1. Liping Yao, Zhong Zeng*, Hiroshi Mizuseki and Yoshiyuki Kawazoe, Effects of Rotating Magnetic Fields on Thermocapillary Flow: Comparison of the infinite and the Φ1-Φ2models, Int. J. Thermal Sci., 49 (2010) 2413-2418.
2. L. P. Yao, Z. Zeng, J. Q. Chen, C. B.Chen, L. Li, H. Mizuseki, Y. Kawazoe, Effect of Rotating Magetic Field on Three-Dimensional Instabilities of Thermocapillary Convection under Microgravity,  Recent progresses in fluid dynamics research, Proceedings of the sixth international conference on fluid mechanics, AIP Conf. Proc. 1376 (2011) 114-116.
3. Liping Yao, Zhong Zeng*, Jingqiu Chena, Yongxiang Zhang, Hiroshi Mizuseki and Yoshiyuki Kawazoe, Effects of Rotating Magnetic Fields on Thermocapillary Flow in a Floating Half-Zone, Journal of Crystal Growth, 316 (2011)177-184.
4. Hai-Qiong Xie, Zhong Zeng*, Liang-Qi Zhang, Gong-You Liang, Hiroshi Mizuseki, and Yoshiyuki Kawazoe, Multi-relaxation-time lattice Boltzmann front tracking method for two-phase flow with surface tension, Chinese Physics B. 21/12 (2012)124703.
5. Yongxiang Zhang*, Zhong Zeng, Jingqiu Chen, The improved space-time conservation element and solution element scheme for two-dimensional dam-break flow simulation,International Journal for Numerical Methods in Fluids, 68/5  (2012) 605-624. 
6. Zhouhua Qiu*, Zhong Zeng*, Huan Mei, Liping Yao, A spectral element method for the numerical simulation of axisymmetric flow in Czochralski crystal growth, Advanced Materials Research, 452-453  (2012) 1195-1199. 
7. Liping Yao,Zhong Zeng*, Jingiu Chen, Liang Li, Hiroshi Mizuseki and Yoshiyuki Kawazoe, Investigation of convection control under the non-uniform RMF in a liquid bridge, Procedia Engineering, 31 (2012) 659-664.
8. Zhouhua Qiu, Zhong Zeng*, Huan Mei, Liang Li, Liping Yao, A Fourier-Legendre Spectral Element Method in Polar Coordinates, Journal of Computational Physics, 231 (2012) 666–675.
9. Liping Yao*, Zhong Zeng, Yi Zhang, Zhouhua Qiu, Hiroshi Mizuseki and Yoshiyuki Kawazoe, Three-Dimensional Unsteady Thermocapillary Flow under Rotating Magnetic Field,Cryst. Res. Technol. 47-8 (2012) 816-823.
10. Liping Yao*, Zhong Zeng, Yi Zhang, Zhouhua Qiu, Huan Mei, Liangqi Zhang, Yongxiang Zhang, Influence of Rotating Magnetic Field Strength on Three-Dimensional Thermocapillary Flow in a Floating Half-Zone Model,Heat and Mass Transfer, 48 (2012) 2103-2111.
11. Gongyou Liang, Zhong Zeng, Yu Chen*, Junya Onishi , Hirotada Ohashi, Shiyi Chen, Simulation of self-assemblies of colloidal particles on the substrate using a lattice Boltzmann pseudo-solid model.Journal of Computational Physics 248(2013) 323-338.
12. Huan Mei, Zhong Zeng*, Zhouhua Qiu, Liang Li, Liping Yao, Hiroshi Mizuseki, Yoshiyuki Kawazoe, Numerical simulation of crucible rotation in high-temperature solution growth method using a Fourier-Legendre spectral element method, International Journal of Heat and Mass Transfer, 64 (2013) 882-891.
13. Gongyou Liang, Zhong Zeng, Yu Chen*, Junya Onishi , Hirotada Ohashi, Shiyi Chen, Simulation of self-assemblies of colloidal particles with different sizes by using a lattice Boltzmann pseudo-solid mode, International Journal of Modern Physics C, 24(12) (2013) 40002-400020.
14. Liangqi Zhang, Zhong Zeng* Haiqiong Xie, Xutang Tao, Yongxiang Zhang, Yiyu Lu, Akira Yoshikawa, Yoshiyuki Kawazoe, An alternative lattice Boltzmann model for three-dimensional incompressible flow, Computers & Mathematics with Applications, 68 / 10 (2014) 1107–1122.
15. Liangqi Zhang, Zhong Zeng*, Haiqiong Xie, Yongxiang Zhang, Yiyu Lu, Akira Yoshikawa, Yoshiyuki Kawazoe, A comparative study of lattice Boltzmann models for incompressible flow, Computers & Mathematics with Applications, 68 / 10 (2014) 1446–1466.
16. Liangqi Zhang, Zhong Zeng*, Haiqiong Xie, Xutang Tao, Yongxiang Zhang, Yiyu Lu, Akira Yoshikawa, Yoshiyuki Kawazoe, An alternative second order scheme for curved boundary condition in lattice Boltzmann method, Computers & Fluids, 114 (2015) 193-202.
17. Haiqiong Xie, Zhong Zeng*, Liangqi Zhang, Yiyu Lu, Lattice Boltzmann Simulation of the Thermocapillary Flow in an Annular Two Liquid Layers System with Deformable Interface, International Communications in Heat and Mass Transfer, 68 (2015) 78-84.
18. Long Qiao, Zhong Zeng*, Haiqiong Xie, Phase-field-based Finite Volume Method for Simulating Thermocapillary Flows, Procedia Engineering, 126 (2015) 507–511.
19. Haiqiong Xie, Zhong Zeng*, Liangqi Zhang, Three-dimensional multi-relaxation-time lattice Boltzmann front tracking method for two-phase flow simulations. Chin. Phys. B, 25 / 1 (2016) 014702.
20. Zhong Zeng*,Long Qiao, Yaping Liu, Yuui Yokota, Yoshiyuki Kawazoe,Akira Yoshikawa, Numerical Study on the Radial Dopant Distribution in Micro-Pulling-Down Crystal Growth, Journal of Crystal Growth, 434 (2016) 110-115.
21. Haiqiong Xie, Zhong Zeng*, Liangqi Zhang, Yuui Yokota, Yoshiyuki Kawazoe and Akira Yoshikawa, Thermocapillary Flow in an Annular Two-Layer Liquid System, Journal of Advanced Thermal Science Research, 3 (2016) 33-38.
22. Haiqiong Xie, Zhong Zeng*, Liangqi Zhang, Yuui Yokota, Yoshiyuki Kawazoe,Akira Yoshikawa, Simulation on Thermocapillary-Driven Drop Coalescence by Hybrid Lattice Boltzmann Method, Microgravity Science and Technology, 28(2016)67-77.  
23. Linmao Yin, Zhong Zeng*, Zhouhua Qiu, Huan Mei , Liangqi Zhang, Yongxiang Zhang, Linear stability analysis of thermocapillary flow in a slowly rotating shallow annular pool using spectral element method, International Journal of Heat and Mass Transfer, 97 (2016) 353-363.
24. Huan Mei*, Faming Wang, Zhong Zeng, Zhouhua Qiu, Linmao Yin, Liang Li, A Global Spectral Element Model for Poisson Equations and Advective Flow over a Sphere, Advances in Atmospheric Sciences, 33 (2016) 377-390.
25. Lingquan Wang, Zhong Zeng*, Liangqi Zhang, Haiqiong Xie, Gongyou Liang, Yiyu Lu, A lattice Boltzmann model for thermal flows through porous media, Applied Thermal Engineering,  108 (2016), 66–75.
26. Zhang, L, Yang, S., Zeng, Z, Yin, L., Zhao, Y., Chew, J.W*., Consistent lattice Boltzmann methods for incompressible axisymmetric flows, Physical Review E, 94 (2016) 023302.
27. Liangqi Zhang, Shiliang Yang, Zhong Zeng, Liping Yao, Jia Wei Chew*, Alternative kinetic theory based lattice Boltzmann model for incompressible axisymmetric flows, Computers & Mathematics with Applications,  72/11 (2016) 2751-2772
28. Liangqi Zhang, Zhong Zeng*, Haiqiong Xie,Zhouhua Qiu, Liping Yao, Yongxiang Zhang, Yiyu Lu, An Alternative Lattice Boltzmann Model for Incompressible Flows and its stabilization, Communications in Computational Physics, 21/2 (2017) 443-465.
29. Yi Zhang, Zhong Zeng*, LipingYao, Long Qiao, Linmao Yin, Yiyu Lu, Modelling the Rotating Magnetic Field with the Skin Effect, International Journal of Applied Electromagnetics and Mechanics, 53/2, (2017) 283-302.
30. Zhang, L., Yang, S., Zeng, Z., Chen, J., Yin, L., Chew, J.W*., Forcing scheme analysis for the axisymmetric lattice Boltzmann method under incompressible limit, Physical Review E, 95/4 (2017) 043311.
31. Zhang, L., Yang, S., Zeng, Z., Chen, J., Yin, L., Chew, J.W*., Alternative extrapolation-based symmetry boundary implementations for the axisymmetric lattice Boltzmann method, Physical Review E, 95/4 (2017) 043312
32. Yokota, Y*., Kudo T., Ohashi Y., Kurosawa S., Kamada K., Zeng Z., Kawazoe Y., Yoshikawa A., Effects of dopant distribution improvement on optical and scintillation properties for Ce-doped garnet-type single crystals, Journal of Materials Science-Materials in Electronics, 28/10 (2017) 7151-7156.
33. Yi Zhang, Zhong Zeng*, LipingYao, Yuui Yokota, Yoshi Kawazoe, Akira Yoshikawa, Skin Effect of Rotating Magnetic Fields in Liquid Bridge, Journal of Magnetics, 22/2 (2017) 333-343.
34. Yuui Yokota*, Tetsuo Kudo, Valery Chani, Yuji Ohashi, Shunsuke Kurosawa, Kei Kamada, Zhong Zeng, Yoshiyuki Kawazoe, Akira Yoshikawa, Improvement of dopant distribution in radial direction of single crystals grown by micro-pulling-down method, Journal of Crystal Growth, 474 (2017)178-182
35. L. Yao, Z. Zeng, L. Zhang, and C. Lei,* Convection and instability of thermocapillary flow in a liquid bridge subject to a non-uniform rotating magnetic field, International Communications in Heat and Mass Transfer, 87 (2017) 52-60.
36. L. Q. Zhang, S. L. Yang, Z. Zeng, J. Chen, L. Q. Wang, and J. W. Chew*, A comparative study of the axisymmetric lattice Boltzmann models under the incompressible limit, Computers & Mathematics with Applications, 74 (2017) 817-841.
37. Zhang, L., Yang, S., Zeng, Z., Chew, J.W,* Consistent second-order boundary implementations for convection-diffusion lattice Boltzmann method, Physical Review E, 97 (2018) 023302.
38. Qiao, L., Zeng, Z.*, Xie, H., Zhang, L., Wang, L., Lu, Y., Modeling thermocapillary migration of interfacial droplets by a hybrid lattice Boltzmann finite difference scheme, Applied Thermal Engineering, 131/25 (2018) 910-919.
39. Wang, L., Zeng, Z.*, Zhang, L., Qiao, L., Zhang, Y., Lu, Y., A new boundary scheme for simulation of gas flow in kerogen pores with considering surface diffusion effect, Physica A: Statistical Mechanics and its Applications, 495/1 (2018) 180-190.
40. Zhang, L., Yang, S., Zeng, Z., Chew, J.W,* Consistent boundary conditions of the multiple-relaxation-time lattice Boltzmann method for convection–diffusion equations, Computers and Fluids, 170 (2018) 24-40.
41. Zhang, L., Yang, S., Zeng, Z., Chew, J.W*, An alternative implementation of the kinetic theory based axisymmetric lattice Boltzmann model, Computers & Mathematics with Applications, 76/6 (2018) 1388-1407  
42. Liu, H., Zeng, Z.*, Yin, L., Qiao, L., Zhang, L., Instability mechanisms for thermocapillary flow in an annular pool heated from inner wall, International Journal of Heat and Mass Transfer, 127(2018) 996-1003.
43. Hao Liu, Zhong Zeng*, Linmao Yin, Zhouhua Qiu, Long Qiao, Influence of aspect ratio on the onset of thermocapillary flow instability in annular pool heated from inner wall, International Journal of Heat and Mass Transfer 129 (2019) 746–752.
44. Zhang, L., Yang, S., Zeng, Z., Chew, J.W.,* Lattice model effects on the accuracy of the boundary condition implementations for the convection–diffusion lattice Boltzmann method, Computers and Fluids, 176 (2018) 153-169.
45. Qiao, L., Zeng, Z.*, Xie, H., Liu, H., Zhang, L., Modeling Leidenfrost drops over heated liquid substrates, International Journal of Heat and Mass Transfer, 128 (2019) 1296-1306.  
46. Zongheng Li, Huiming Ning*, Liangbin Liu, Chaohe Xu, Alamusi,Yuanqing Li, Zhong Zeng, Feng Liu and Ning Hu*, Fabrication of bagel-like graphene aerogels and its application in pressure sensors, Smart Materials and Structures, 28 (2019) 055020.
47. Liu, H, Zeng, Z*, Yin, LM, Qiu, ZH, Qiao, L, Effect of the crucible/crystal rotation on thermocapillary instability in a shallow Czochralski configuration, International Journal of Thermal Sciences, 2019 (137) 500-507.
48. Liu, H, Zeng, Z*, Yin, LM, Qiu, LQ, Zhang, L, Effect of the Prandtl number on the instabilities of the thermocapillary flow in an annular pool, Physics of Fluids, 31/3 (2019) 034103.  
49. Zu-An Tian, Zhong Zeng*, Hao Liu, Linmao Yin, Liangqi Zhang, Long Qiao. Linear Stability Analysis of Thermocapillary Flow in Rotating Shallow Pools Heated from Inner Wall [J]. Journal of Thermal Science, 29/1 (2020) 251-259
50. Liu Hao*, Zeng Zhong, Qiu Zhouhua, Yin Linmao, Xiao Yao, Effect of rotating magnetic field on instabilities of thermocapillary flow in a Czochralski silicon melt pool, Physics of Fluids, ‏ 32/10(2020)  104106-1.
51. Hao Liu, Zhong Zeng*, Zhouhua Qiu, Linmao Yin, Yao Xiao, Thermocapillary Flow Instabilities in a Rotating Annular Pool for Moderate-Prandtl-number Fluid, Microgravity Science and Technology, 33/1 (2021) 12.
52. Hao Liu, Zhong Zeng*, Linmao Yin, Zhouhua Qiu, Long Qiao, Volume effect on the instabilities of thermocapillary flow in annular pools filled with silicon melt, International Communications in Heat and Mass Transfer, 121 (2021) 105099.
53. Hao Liu*, Zhong Zeng, Zhouhua Qiua, Linmao Yin, Linear stability analysis of Rayleigh–Bénard convection for cold water near its density maximum in a cylindrical container, International Journal of Heat and Mass Transfer, 173, (2021)121240.
54. Hao Liu*, Jinchao He, Zhong Zeng, Zhouhua Qiu, Instabilities of thermocapillary-buoyancy flow in a rotating annular pool for medium-Prandtl-number fluid, Physical Review E, 104 (2021) 035101.
55. Yanfang Zhai, Guanming Yang, Zhong Zeng, Shufeng Song*, Shuai Li, Ning Hu*, Weiping Tang, Zhaoyin Wen, Li Lu, and Janina Molenda, Composite Hybrid Quasi-Solid Electrolyte for High-Energy Lithium Metal Batteries, ACS Applied Energy Materials, 4 (2021) 7973-7982
56. Y. Liu, Z. Zeng*, L. Zhang, H. Liu, Y. Xiao, Y. Wang, Effect of crystal rotation on the instability of thermocapillary–buoyancy convection in a Czochralski model, Physics of Fluids, 33/10 (2021) 10401.
57. Yue Wang, Zhong Zeng*, Hao Liu, Liangqi Zhang, Linmao Yin, Yao Xiao, Yong Liu, Flow instabilities in thermocapillary liquid bridges between two coaxial disks with different radii, International Journal of Heat and Mass Transfer, 183 (2022) 122182.
58. Yao Xiao, Zhong Zeng*, Liangqi Zhang, Jingzhu Wang, Yiwei Wang, Hao Liu, Chenguang Huang, A spectral element-based phase field method for incompressible two-phase flows, Physics of Fluids 34/21 (2022) 022114.
59. Y. Liu, L. Zhang*, H. Liu, Y. Xiao, Y. Wang, Z. Zeng*, Influence of aspect ratio on instability of the mixed convection in Czochralski model, Journal of Crystal Growth, 589 (2022) 126670.
60. Yue Wang, Liangqi Zhang*, Hao Liu, Linmao Yin, Yao Xiao, Yong Liu, Zhong Zeng*, Instabilities of thermocapillary flows in large Prandtl number liquid bridges between two coaxial disks with different radii, Physics of Fluids  (已录用).
61. 文岑*、张永祥、陈景秋、曾忠,用CE/SE法对弯曲与分叉河道的溃坝洪水波的数值研究,计算力学学报,27/3  (2010) 435-44.
62. 梁功有、曾忠*、张良奇、谢海琼,格子Boltzmann方法三维并行程序设计, 水动力学研究与进展A辑, 26 (2011) 531-537.
63. 李亮、曾忠*、时洪宇、赵前成、成宝江、陈杰富、周武. 600MW超临界CFB锅炉中振荡对流分析. 西南大学学报(自然科学版), 33 (2011) 152-159.
64.  姚丽萍、曾忠*、张永祥,微重力环境下横向旋转磁场对热表面张力流的影响,重庆大学学报. 35(2012) 115-120.
65.  梁功有、曾忠*、姚丽萍、张良奇、邱周华、梅欢,二维方腔内热表面张力流的格子Boltzmann方法模拟, 重庆大学学报 35/9 (2012) 106-113.
66.  梅欢*、曾忠、邱周华, 极坐标系下的Legendre谱元方法求解Poisson-型方程, 计算力学学报,  29/5 (2012) 641-645.
67.  李亮、曾忠*、姚丽萍、陈朝波、陈景秋,组合线圈磁场对液桥表面张力流的影响, 工程力学 29-8 (2012)39-44.
68. 梅欢*、曾忠、邱周华、李亮、姚丽萍, 极坐标系下Fourier-Legendre谱元方法与有限差分法数值扩散的比较, 计算力学学报,30/3 (2013) 406-411.
69. 梁功有、曾忠*、张永祥、张良奇、谢海琼、陈昱, 两球形颗粒间横向毛细力的格子Boltzmann研究, 应用数学和力学, 34/5(2013)445-453.
70. 刘亚平、曾忠*、许小龙、张臻、屈菁菁, 不同结构的板翅式油冷器单层冷却液侧换热特性的数值模拟, 应用数学和力学, 35/7 (2014) 815-822.
71. 许小龙、曾忠*、郭佳, 校园二氧化碳分布数值模拟, 北京:中国科技论文在线, [2015-3-19]
72. 赵前成、许小龙、曾忠*, 大型汽轮发电机端部整体数值模拟, 北京:中国科技论文在线  [2015-11-24]
73. 屈菁菁、曾忠*、乔龙、付昌禄、丁雨憧,微下拉法YAG晶体生长数值模拟,应用数学和力学, 37/6 (2016) 574-583.
74. 周涛*、曾忠,FSAE赛车新型曲面前翼尾翼气动优化设计,重庆大学学报, 40/10 (2017) 40-52.
75. 周平、曾忠*、乔龙, 假塑性流体液滴撞击壁面上的铺展的格子Boltzmann模拟, 重庆大学学报,41/12 (2018) 1-9.
76. 李家宇、曾忠*、乔龙,相场方法模拟液滴的动态润湿行为,应用数学和力学, 40/9 (2019) 957-967.
77. 邱周华*、曾忠、刘浩, 基于Picard迭代的PN×PN-2谱元法求解定常不可压缩 Navier-Stokes方程, 应用数学和力学,42/2 (2021) 142-150.
78 姚丽萍*、陈震寰、李明生、曾忠,太阳能烟囱强化地下空间自然通风特性的研究. 太阳能学报, 42/6 (2021) 184-190.
79. 颜永松、王维朗、薛婧媛、游滨、曾忠、侯湘,学术期刊同行评议中不端行为的应对策略,编辑学报,33/04 (2021) 426-429.
80. 周游、曾忠*、刘浩、张良奇,高径比对 GaAs 熔体液桥热毛细对流失稳的影响,力学学报,54/2 (2022) 301-315.

截至2022年6月,共发表期刊论文100余篇,其中SCI检索期刊论文70余篇。
说明:标注*代表通信作者

主讲课程
[博士生课程] 高等流体力学
[硕士生课程] 计算流体力学、粘性流体力学
[本科生课程] 流体力学、工程流体力学、流体力学及水力学、计算机网络基础

获奖情况
1990年:重庆大学优秀本科毕业生
1993年:重庆大学优秀硕士毕业生
1998年:日本金属材料研究所第95次演讲会POSTER赏
2005年:重庆大学“优秀青年教师”奖
2006年:重庆市高校优秀中青年骨干教师奖
2012年:重庆大学先进工作者
2016年:教育部科技进步奖 一等奖 煤矿井下割缝复合水力压裂增透技术及应用(第13完成人)
2019年:重庆市科技期刊编辑学会“优秀主编”
2019年:中国力学学会全国徐芝纶力学优秀教师奖

研究生培养
截至2022年6月:
培养学历博士已毕业 12人;学历博士在读 1人;
培养学术硕士已毕业 20人;学术硕士在读 2人;
培养专业硕士已毕业  2人;专业硕士在读 3人。

联系方式
电子邮箱:zzeng@cqu.edu.cn
通讯地址 1:中国 重庆市 400044 重庆大学 A区 期刊社
通讯地址 2:中国 重庆市 400044 重庆大学 A区 航空航天学院 工程力学系

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