杨刚，博士，教授，博士生导师。2010年6月毕业于湖南大学机械与运载工程学院，获博士学位。2010年9月至今就职与湖南大学机械与运载工程学院，主要从事计算力学、冲击动力学、CAE仿真应用分析等领域的科研工作，具体包括先进力学计算方法的研究、装备防护结构及材料的冲击动力学响应及设计、微流体动力学的仿真分析、车辆及机械结构力学性能的CAE仿真分析等。教学工作方面主要承担工程力学专业相关的课程，具体涉及有《理论力学》、《工程力学》、《材料力学》和《振动测试技术》等课程的教学工作。主持完成国防“973”子专题、国家自然科学基金、博士点基金、企业横向课题等相关项目，参与国防领域相关基础研究项目数项；在International Journal of Impact Engineering、Applied Mathematical Modelling、Meccanica、Computers & Fluids、《工程力学》、《振动与冲击》等国内外期刊上发表论文40余篇，其中SCI论文20余篇。国际计算力学学会会员，中国计算力学学会会员，担任《International Journal of Computational Methods》、《振动与冲击》、《高压物理学报》等期刊的审稿人。

E-mail：yanggang@hnu.edu.cn

2022年01月-迄今湖南大学机械与运载工程学院，教授，博士生导师

2017年01月- 2021年12月湖南大学机械与运载工程学院，副教授

2015年04月- 2016年04月澳大利亚西澳大学访问学者

2010年09月- 2016年12月湖南大学机械与运载工程学院，助理教授,硕士生导师

2006年09月-2010年06月湖南大学机械与运载工程学院，获博士学位

[1]10kWe高效紧凑的斯特林热电一体化空间核反应堆电源设计项目子课题，国家重点研发计划，2020.11-2023.10, 50万（主持）

[2]国防基础科研项目，XXXX防护装甲的仿真设计及优化，2020.1-2021.12,50万元（主持）

[3]国家自然科学基金面上基金，微通道内不互溶液-液两相微流模拟的SPH-FVM耦合算法研究，2019.01-2022.12,59万元。（主持）

[4]企业横向课题项目，XXX射流的形成分析及设计，2018,01-2018,06, 30万元。（主持）

[5]国家自然科学基金青年基金，光滑粒子法的改进及其在凝聚炸药爆轰中的应用，2012.01-2014.12，20万元。（主持）

[6]国防973子专题，2010.09-2013.12，50万元。（主持）

[7]高等学校博士学科点专项科研基金，光滑粒子法在凝聚炸药起爆动力学中的应用研究，2012.01-2014.12，4万元。（主持）

[8]国防科工委“十一五”国防基础科研项目，2008.01－2010.12，250万元。（主研）

[9]国防科工委“十一五”国防基础科研重点项目子项，2006.01－2010.12，40万元。（主研）

[10]教育部国防基础科研项目，2008.01－2010.12，110万元。（主研）

发表论文：

[1]Yixiang Xu,Gang Yang*,Dean Hu. Comparison of surface tension models for the simulation of two-phase flow in an ISPH-FVM coupling method. European Journal of Mechanics / B Fluids. 2024,105:57-96.

[2]Shuang Liu,Gang Yang*,Yixiang Xu, Dean Hu. A SPH-FVM coupling method based on triangular mesh for the simulation of two-phase flows. Engineering Analysis with Boundary Elements, 2024,159:237-258.

[3]Yixiang Xu,Gang Yang*,Dean Hu. A three-dimensional ISPH-FVM coupling method for simulation of bubble rising in viscous stagnant liquid. Ocean Engineering, 2023, 278: 114497.

[4]Yixiang Xu,Gang Yang*,Shuang Liu, Dean Hu. Improvement of surface tension discrete model in the ISPH-FVM coupling method. International Journal of Multiphase Flow, 2023, 160: 104347.

[5]Yixiang Xu,Gang Yang*,Dean Hu. An ISPH-FVM coupling algorithm for interface tracking of two-phase fluid flows. International Journal For Numerical Methods In Fluids, 2022, 94（6）：1434-1464.

[6]姚晨辉,杨刚*,张哲,李安祺.抗侵彻孔结构装甲的可靠性优化设计.高压物理学报, 2022, 36(4): 045102.

[7]Chunan Du,Gang Yang*, Dean Hu, Xu Han.Low velocity impact behavior of bioinspired hierarchical armor with filling layer. Mechanics of Advanced Materials and Structures, 2022, 2111621

[8]Changran Li,Gang Yang*, Xuenan Du, Dean Hu, Xu Han. Dynamic mechanical response and deformation behavior of a novel hierarchical cellular structure material–The thousands of eyes Bodhi.International Journal of Impact Engineering, 2022, 162:104131.

[9]Anqi Li,Gang Yang*,Chenhui Yao, Xue Yan, Dean Hu. Influence of geometry constraint in finite space on impact resistance of shear thickening fluid. Smart Materials and Structures, 2022, 31(3):035022.

[10]Chunan Du,Gang Yang*, Dean Hu, Xu Han. Structure Design and Energy Absorption Mechanism of a New Type of Armor Inspired from Armadillos. Acta Mechanica Solida Sinica, 2021, 34:718-728

[11]Yixiang Xu,Gang Yang*,Yawei Zhu, Dean Hu. A coupled SPH–FVM method for simulating incompressible interfacial flows with large density difference. Engineering Analysis with Boundary Elements, 2021,128:227-243.

[12]Wei Xiao，Yang*, Dean Hu.Investigation on impact noise radiated by the elastic collision of multiple spheres. Journal of Vibration and Control,2020 27(21-22):107754632096430.

[13]Yawei Zhu,Yang*, Chen Zhuang, Changran Li and Dean Hu.Oral cavity flow distribution and pressure drop in balaenidwhalesfeeding: a theoretical analysis. Bioinspiration & Biomimetics, 2020, 15:036004.

[14]Zhang L,Yang G*, Hu D.A.，Han X. An approach based on level set method for void identification of continuum structure with time-domain dynamic response. Applied Mathematical Modelling, 2019, 75:446-480.

[15]Zhang L,Yang G*, Hu D.A. Identification of Voids in Structures Based on Level Set Method and FEM. International Journal of Computational Methods, 2017(1):185001

[16]Yang, D.A. Hu, X Han, et al. An extended edge-based smoothed discrete shear gap method for free vibration analysis of cracked Reissner-Mindlin plate. Applied Mathematical Modelling, 2017, 51:477-504.

[17]Zhuang,G. Yang*, T. Long, D.A. Hu. Numerical comparison of removal and deposition for fully-distributed particles in central-and split-type air-conditioning rooms. Building and Environment, 2017, 112: 17-28.

[18]Yang，D.A. Hu, S.Y. Long, A reconstructed edge-based smoothed DSG element based on global coordinate for analysisof Reissner-Mindlin plates. Acta Mechanica Sinica, 2016, DOI: 10.1007/s10409-016-0607-x.

[19]Yang,R.Q. Liu, D.A. Hu, et al. Simulation of one dimension shock initiation of condensed explosive by SPH method. Engineering Computations, 2016, 33(2): 528-542.

[20]Yang,D.A. Hu, G. W. Ma, et al. A novel integration scheme for solution of consistent mass matrix in free and forced vibration analysis. Meccanica, 2016, 51: 1897-1911.

[21]Yang, Y.K. Fu, D.A. Hu, et al. Feasibility analysis of SPH method in the simulation of condensed explosives detonation with ignition and growth model. Computers & Fluids, 2013, 88: 51-59.

[22]Yang, X. Han, D.A. Hu. Simulation of explosively driven metallic tubes by the cylindrical smoothed particle hydrodynamics method. Shock Waves, 2015, 25(6): 573-587.

[23]Yang, X. Han, D.A. Hu. Computer simulation of two-dimensional linear-shaped charge jet using smoothed particle hydrodynamics. Engineering Computations, 2011, 28(1): 58-75.

[24]Xiao,G. Yang*. Structural Response Analysis under Dependent Variables Based on Probability Boxes[J]. Mathematical Problems in Engineering, 2015,http://dx.doi.org/10.1155/2015/484615

[25]Chen, Z Zhang,G. Yang,Q. Zhou, Y. Xia. C. Jiang, Evidence-theory-based reliability analysis from the perspective of focal element classification using deep learning approach, Journal of Mechanical Design, 2023. doi:10.1115/1.4062271

[26]Wan, D., Hu, D., Natarajan, S., Bordas, S. P. A., &Yang, G.A fully smoothed xfem for analysis of axisymmetric problems with weak discontinuities.International Journal for Numerical Methods in Engineering,2017. 110(3), 203-226.

[27]Jiang, C., Han, X., Liu, G. R., Zhang, Z. Q.,Yang, G., & Gao, G. J., et al. (2017). Smoothed finite element methods (s-fems) with polynomial pressure projection (p3) for incompressible solids.Engineering Analysis with Boundary Elements, 2017

[28]Wang, D.A. Hu,G. Yang, et al. An effective sub-domain smoothed Galerkin method for free and forced vibration analysis. Meccanica, 2015, 50(5): 1285-1301.

[29]Long, D.A. Hu,G. Yang,et al. 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.

[30]T. Wan, D.A. Hu,G. Yang,T. Long. A fully smoothed finite element method for analysis of axisymmetric problems. Engineering Analysis with Boundary Elements, 2016, 72, 78-88.

[31]A. Hu, T. Long, C.H. Liu,G. Yang,et al. 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.

[32]A. Hu, Y.Y. Li, X. Han,G. Yang,et al. A Sub-Domain RPIM with Condensation of Degree of Freedom. Engineering Analysis with Boundary Elements, 2013, 37: 1161-1168.

[33]H. Xiao, D.A. Hu, X. Han,G. Yang,et al. Simulation of normal perforation of aluminum plates using axisymmetric smoothed particle hydrodynamics with contact algorithm. International Journal of Computational methods, 2013, 10(3): 1-21.

[34]Xiao, X. Han, C. Jiang, &G. Yang. An efficient uncertainty propagation method for parameterized probability boxes. Acta Mechanica, 2016, 227(3), 633-649.

[35]T. Wan, D.A. Hu, S. Natarajan, S. Bordas, &G. Yang. A fully smoothed XFEM for analysis of axisymmetric problems with weak discontinuities. International Journal for Numerical Methods in Engineering. 2016. DOI: 10.1002/nme.5352.

[36]杨刚*，刘文洋,冯慧,等.专业特色分流对理论力学教学的成效影响分析与思考.科教文汇, 2023(11):74-79.

[37]姚晨辉，杨刚*，张哲，李安祺.抗侵彻孔结构装甲的可靠性优化设计.高压物理学报, 2022, 036.

[38]杨刚,刘让奇,肖钊.碳纤维复合材料冲击响应的数值模型确认.振动与冲击, 2017, 36(11):255-262.

[39]杨刚,傅奕轲,郑建民, &胡德安.基于SPH方法对不同药型罩线性聚能射流形成及后效侵彻过程的模拟.振动与冲击, 2016, 35(4), 56-61.

[40]杨刚,傅奕轲,郑建民, &胡德安.基于FE-SPH自适应耦合算法对长杆弹侵彻反应装甲的模拟研究.工程力学, 2016, 33(1): 223-231.

[41]杨刚,郑建民,胡德安.含铝炸药在混凝土介质中爆炸响应的FE-SPH算法模拟研究.振动与冲击, 2015, 35(1): 28-33.

[42]杨刚,梁 超,刘 平,等.基于三维FE—SPH自适应耦合算法的子弹侵彻混凝土靶跳飞问题模拟.工程力学, 2013, (9):276-282.

[43]杨刚,胡德安,韩 旭.混凝土中爆炸模拟的数值方法比较.应用力学学报, 2011, 28(4):423-426.

[44]杨刚,傅奕轲,胡德安.固体冲击模拟的轴对称光滑粒子法.计算机辅助工程, 2013, 22(6):84-89.

[45]杨刚,韩旭,胡德安.二维空间中基于黎曼解的SPH方法.应用力学学报, 2010, 27(3):492-499.

[46]杨刚,韩 旭,龙述尧.应用SPH方法模拟近水面爆炸.工程力学, 2008, 25(4):204-208

[47]肖钊,韩旭,杨刚.基于区间技术的模型确认方法及应用.机械工程学报, 2014, 50(14):177-184.

[48]韩旭,杨刚,龙述尧. SPH方法在两相流动问题中的典型应用.湖南大学学报:自然科学版, 2007, 34(1):28-32.

[49]肖钊,韩 旭,杨刚.基于区间技术的模型确认方法及应用.机械工程学报, 2014, 50(14):177-184.

[50]胡德安,李 霞,杨刚.刚性弹斜侵彻石灰石靶的子弹头部形状优化.固体力学学报, 2014(s1):64-68.

[51]胡德安,韩旭,肖毅华,杨刚.光滑粒子法及其与有限元耦合算法的研究进展.力学学报, 2013, 45(5): 639-652.

[52]肖毅华,胡德安,韩旭,杨刚.一种自适应轴对称FEM-SPH耦合算法及其在高速冲击模拟中的应用.爆炸与冲击. 2012, 32(4): 384-392

[53]张伟,韩 旭,刘 杰, &杨刚.一种基于正交试验设计的土中爆炸数值模型确认方法.工程力学，2013, (3): 58-65.

[54]陈睿,韩旭,胡德安,杨刚,&肖毅华.基于隔步搜索的移动最小二乘粒子流体动力学方法. 2009， 兵工学报(s2), 5-9.

[55]Chen L, Zhang Z,Yang G,et al. Evidence-Theory-Based Reliability Analysis From the Perspective of Focal Element Classification Using Deep Learning Approach, Journal of Mechanical Design, 2023, 145

[56]Zhiwei Shen, Hu D ,Yang G, et al. Ballistic reliability study on SiC/UHMWPE composite armor against armor-piercing bullet[J]. Composite Structures, 2019.

[57]Xiao W , Hu D ,Chen W , et al. Modeling and analysis of bending pneumatic artificial muscle with multi-degree of freedom[J]. Smart Materials and Structures, 2021, 30(9):095018 (11pp).

[58]Zhu Y , Hu D ,Yang G .Theoretical analysis of the hydrodynamic filtering system in the balaenid whales suspension feeding[J]. Bioinspiration & Biomimetics, 2020, 16(2):026006-.

[59]Zhu Y W , Zhou R G ,Yang G ,et al. Experimental and numerical study of the adsorption performance of a vortex suction device using water-swirling flow[J].中国科学:技术科学英文版, 2020.

[60]Xiao, W. , Liu, C. ,Hu, D. ,Yang, G. ,&Han, X. . (2022). Soft Robotic Surface Enhances the Grasping Adaptability and Reliability of Pneumatic Grippers. international Journal Of Mechanical Sciences

[61]Zhuang, C. , Yang, G. ,Zhu, Y. , &Hu, D. . (2020). Effect of morphed trailing-edge flap on aerodynamic load control for a wind turbine blade section. Renewable Energy, 148, 964-974.

[62]Xiao, W. , Hu, D. ,Chen, W. ,Yang, G., &Han, X. . (2020). A new type of soft pneumatic torsional actuator with helical chambers for flexible machines. Journal of Mechanisms and Robotics, 13(1), 1-24.

[63]Xiao, W. , Hu, D. ,Chen, W. ,Yang, G., &Han, X. . (2021). Design, characterization and optimization of multi-directional bending pneumatic artificial muscles. Journal of Bionic Engineering.

[64]Xiao, W. ,Du, X. ,Chen, W. ,Yang, G., &Han, X. . (2021). Cooperative collapse of helical structure enables the actuation of twisting pneumatic artificial muscle. International Journal of Mechanical Sciences, 106483.

[65]Zhu, Y. W. , Hu, D. A. ,Li, C. R. ,Zhuang, C. , &Yang, G. .(2021). Cfd-dem simulation of the hydrodynamic filtration performance in balaenid whale filter feeding - sciencedirect. Science of The Total Environment, 787.

[66]Jie, Weng, Yawei, Zhu, Xuenan, &Gang,et al. (2019). Theoretical and numerical studies on a five-ray flexible pectoral fin during labriform swimming. Bioinspiration & biomimetics, 15(1), 16007-16007.

[67]Liu WYang G,Cai Y . Modeling of failure mode switching and shear band propagation using the correspondence framework of peridynamics[J]. Computers & Structures, 2018, 209(OCT.):150-162.

[68]Long, T. Hu, D. Wan, D. Zhuang, C. , &Yang, G.. (2017). An arbitrary boundary with ghost particles incorporated in coupled fem–sph model for fsi problems. Journal of Computational Physics.

[1]第三届国际大学生工程力学竞赛(亚洲赛区)优秀指导教师奖，2021；

[2]第二届国际大学生工程力学竞赛(亚洲赛区)优秀指导教师奖，2020；

[3]第十二届周培源大学生力学竞赛优秀指导教师奖，2019；

[4]湖南大学2019年度创新创业优秀指导教师，2019年度；

[5]第十五届湖南大学长丰“长丰奖励基金”优秀教师奖，2019年度；

[6]第十五届湖南大学长丰“长丰奖励基金”学院建设突出贡献奖，2019年度

[7]军用考核与评估虚拟系统，湖南省国防科学技术进步二等奖（No：2008XGFJ205），2009.11.12，湖南省国防科技工业局。（排名第五）；

[8]湖南大学长丰优秀教师奖，2015年度。