n     职称：教授

n     联系电话：13316209990

n     电子邮箱：lqtang@scut.edu.cn

n     办公地址：交通大楼304

固体力学、实验力学、软物质力学、冲击动力学  

中国力学学会常务理事

中国力学学会固体力学专业学会专委会委员

IAAM （The International Association of   Applied Mechanics）Fellow

《实验力学》副主编、《Mechanics of Advanced Materials and Structures》和《力学学报》编委

博士生： 力学 

硕士生： 力学 

专业学位硕士：建筑与土木工程

教育经历                              

1991年9月～1994年7月，中国科学技术大学，固体力学，博士

1988年9月～1991年7月，中国科学技术大学，爆炸力学，硕士 

1983年9月～1988年7月，中国科学技术大学，爆炸力学，学士   

工作经历                              

2007年01月～2007年04月：美国德州A&M大学和Los Alamos实验室访问学者

2006年04月～2013年06：华南理工大学工程力学系主任

2003年03月～至今：华南理工大学教授

2001年05月～2001年11月：中国科学院高级访问学者

1997年10月～1999年01月：香港理工大学副研究员

1997年09月～2003年02月：华南理工大学副教授

1994年07月～1997年08月：华南理工大学讲师 

²  教学                

本科生教学：                              

1. 主讲《弹性力学》双语课程；

2. 指导学生完成多项国家大学生创新计划项目，如：“水凝胶细观模型的尺寸效应研究”、“水凝胶模拟脑组织的研制与冲击响应研究”、“前额正碰下基于人脑有限元模型（FEHM）的脑组织变形分析”等。

研究生教学：                              

讲授《连续介质力学》、《现代力学进展》课程，年均招收硕士生1-2名，博士生1-2名。                                

教学成果：

2007-2009广东省名牌专业 “工程力学”负责人                               

²  科研              

科研兴趣：(1)生命软物质与结构的力学行为与机理；(2)结构损伤与长期健康监测；(3)冲击动力学等。 

科研项目：

1. 复杂荷载环境下结构长期健康监测大数据的处理与分析技术研究。亚热带建筑科学国家重点实验室重点项目，2022.07

2. 轴对称高速入水航行体吸能降载结构仿真，企业项目， 2021.04

3. 溶液环境中高含水率超软材料动态力学性能的实验技术与表征方法. 国基重点，2020.01

4. 基于云计算的桥梁长期健康监测系统开发及示范应用，广州市民生科技攻关，2019.06

5. 肇庆市阅江大桥长期健康监控系统， 企业相关项目， 2018-01-10

6. 动态多轴加载下泡沫金属的本构关系研究. 国基面上， 2017-08-18

7. 面向桥梁长期健康监测的大数据处理技术及应用，广东省应用型重点科技项目，2015.08

8. 高低温冲击条件下泡沫金属材料及其复合结构的力学行为研究，广东省自然科学重点基金， 2015-08-01

9. PVA凝胶材料的动态力学性能及实验测试技术与表征方法研究，国基面上， 2015.01

10. 轻质泡沫金属复合结构的承载、吸能与隔热性能和多功能优化（参与），国基重点，2010.01

代表性成果（论文、专利或专著、软件著作权、成果转化等）                              

获奖：

1. 泡沫金属在冲击与多轴加载下的力学行为及机理. 2021中国力学学会自然科学二等奖(2)

2. 面向桥梁健康监测的大数据处理技术与应用. 2020广东省科技进步二等奖(1)

3. 大跨径桥面铺装技术体系研究. 2010陕西省科技进步三等奖(5)

4. 公路旧危桥的承载能力检测评定及加固新技术. 2009广东省科技进步二等奖(3)

5. 排海工程放流系统海水入侵与清除数学模拟. 1999国家环保局科技进步三等奖(3)

近年5年发表的部分期刊论文

[1] He K, Liao H, Liu Z, Liu Y, Tang L, Yang B, Zhou L*, Jiang Z*. Reinforcing efficiency of nanophases with various geometric shapes on interfacial bonding in multiscale composites. Composites Part A: Applied Science and Manufacturing. 2023;165:107369.

[2] Wang J, Zhang Y, Jiang Z, Zhou L*, Liu Z, Liu Y, Yang B, Tang L*. Mechanical behavior and constitutive equations of porcine brain tissue considering both solution environment effect and strain rate effect. Mech Adv Mater Struct. 2022; doi:10.1080/15376494.2022.2150917.

[3] Liu Y, Hu J, Xiao Z, Jin X, Jiang C, Yin P, Tang L, Sun T*. Dynamic behavior of tough polyelectrolyte complex hydrogels from chitosan and sodium hyaluronate. Carbohydr Polym. 2022;288:119403.

[4] Xu P, Tang L*, Zhang Y*, Ni P, Liu Z, Jiang Z, Liu Y, Zhou L. SHPB experimental method for ultra-soft materials in   solution environment. INT J IMPACT ENG. 2022: 159.

[5] Ma D, Liu C, Zhu H, Liu Y, Jiang Z*, Liu Z, Zhou L, Tang L. High fidelity 3D mesoscale modeling of concrete with ultrahigh volume fraction of irregular shaped aggregate. Compos Struct. 2022;291:115600. 

[6] Peng C, Liu C, Liao Z, Yang B, Tang L, Yang L*, Jiang Z*. Automatic 3D image based finite element modelling for metallic foams and accuracy verification of digital volume correlation. Int J Mech Sci. 2022;235:107715. 

[7] Xiao Q, Liu Y, Zhou L*, Liu Z, Jiang Z, Tang L. Reliability analysis of bridge girders based on regular vine Gaussian copula   model and monitored data. Structures. 2022;39:1063-1073. 

[8] Zhang Y, Zhang Y, Tang L*, Liu Z, Jiang Z, Liu Y, Zhou L, Zhou X. Uniaxial compression constitutive equations for saturated hydrogel combined water-expelled behavior with environmental factors and the size effect. MECH ADV MATER STRUC. 2022.

[9] Lin A, Li R, Jiang Z*, Dong S*, Liu Y, Liu Z, Zhou L, Tang L. Path independent stereo digital image correlation with high speed and analysis resolution. OPT LASER ENG. 2022: 149.

[10] 廖焕臣, 李稳, 蒋震宇*, 刘逸平, 刘泽佳, 周立成, 汤立群. 三类典型纳米增强相对多尺度复合材料界面粘接性能影响的模型研究. 复合材料学报. 2021: 1-12.

[11] Ma D, Liang Z, Liu Y*, Jiang Z*, Liu Z, Zhou L, Tang L. Mesoscale modeling of epoxy polymer concrete under tension or bending. COMPOS STRUCT. 2021: 256.

[12] Feng J, Tang L, Liu Z*, Dong S, Zhou L, Liu Y, Jiang Z. Numerical model for formation and evolution of the bleb. INT J OF APP MECH. 2021: 13.

[13] Yang J, Huang J, Jiang Z*, Dong S*, Tang L, Liu Y, Liu Z, Zhou L. 3D SIFT aided path independent digital volume correlation and its GPU acceleration. OPT LASER ENG. 2021: 136.

[14] Liu Y, Lu Z, Yan X, Liu Z*, Tang L*. Measurement and modelling of the vibration induced by working equipment on an offshore platform. OCEAN ENG. 2021: 219.

[15] Wang Z, Tang L, Zhou L*, Jiang Z, Liu Z, Liu Y. Methodology to design variable-thickness streamlined radomes with graded dielectric multilayered wall. IEEE T ANTENN PROPAG. 2021: 69: 8015-8020.

[16] Lian WZ, Fan ZW, Cui K, Yin P, Yang J, Jiang H, Tang L, Sun T*. Tough hydrogels with dynamic H-Bonds: structural heterogeneities and mechanical performances. MACROMOLECULES. 2021: 54: 8996-9006.

[17] Yin J, Xiao H, Xu P, Yang J*, Fan Z, Ke Y, Ouyang X, Liu G, Sun T, Tang L, Cheng S, Yin P*. Polymer topology reinforced synergistic interactions among nanoscale molecular clusters for impact resistance with facile processability and recoverability. ANGEW CHEM INT EDIT. 2021: 60: 22212-22218.

[18] Zhang G, Tang L, Liu Z, Zhou L*, Liu Y, Jiang Z, Chen J, Sun S. Enhanced features in principal component analysis with spatial and temporal windows for damage identification. INVERSE PROBL SCI EN. 2021: 29: 2877-2894.

[19] Lu Z, Liu Y*, Liu Z, Jiang Z, Tang L. Effective estimation of flexural damage and strength of double-layer laminated composite beam. COMPOS STRUCT. 2021: 264.

[20] Ding R, Wang X, Tang L*, Zhang Y, Liu Z, Jiang Z, Liu Y, Zhou L. A new method to study contributions of polymer fibers and water respectively to the hydrogel stress under tension and compression using 3D micro-fiber network model. INT J OF APP MECH. 2021: 13.

[21] Xiao Z, Liu Y, Yang J, Jiang H, Tang L, Chen H, Sun T*. Rate-dependent fracture behavior of tough polyelectrolyte complex hydrogels from biopolymers. MECH MATER. 2021: 156.

[22] Li X, Ma D, Lu Z, Liu Y*, Jiang Z*, Tang L, Liu Z, Zhou L. Experimental study of hygrothermal and ultraviolet aging on the flexural performance of epoxy polymer mortar. ACTA MECH SOLIDA SIN. 2021: 34: 539-549.

[23] Liao Y, Ma D, Liu Y*, Jiang Z*, Liu Z, Zhou L, Tang L. An experimental study on the dynamic mechanical properties of epoxy polymer concrete under ultraviolet aging. MATERIALS. 2021: 14.

[24] Liu C, Lin J, Tang L, Liu Z, Jiang Z*, Lian K*. Design of metal-polymer structure for dental implants with stiffness adaptable to alveolar bone. COMPOS COMMUN. 2021: 24.

[25] Zuo Z, Zhang Y, Zhou L*, Liu Z, Jiang Z, Liu Y, Tang L*. Mechanical behaviors and probabilistic multiphase network model of polyvinyl alcohol hydrogel after being immersed in sodium hydroxide solution. RSC ADV. 2021: 11: 11468-11480.

[26] 王敬谕, 吕苏磊, 陈雅辉, 倪萍, 张泳柔*, 汤立群*. 猪脑组织在不同环境中的准静态力学行为. 实验力学. 2021: 36: 451-457.

[27] Zhang Y, Huang Z, Dong S, Liu Z*, Liu Y, Tang L, Cheng T, Zhou X*. Evaluation of cell's passability in the ECM Network. BIOPHYS J. 2020: 119: 1056-1064.

[28] Huang Y, Fan Q, Chen J, Li L, Chen M*, Tang L, Fang D*. Optimization of flexible multilayered metastructure fabricated by dielectric-magnetic nano lossy composites with broadband microwave absorption. COMPOS SCI TECHNOL. 2020: 191.

[29] Yang J, Huang J, Jiang Z*, Dong S*, Tang L, Liu Y, Liu Z, Zhou L. SIFT-aided path-independent digital image correlation accelerated by parallel computing. OPT LASER ENG. 2020: 127.

[30] Zhang G, Tang L, Liu Z, Zhou L*, Liu Y*, Jiang Z. Machine-learning-based damage identification methods with features derived from moving principal component analysis. MECH ADV MATER STRUC. 2020: 27: 1789-1802.

[31] 习会峰, 姚一鸣, 刘逸平, 汤立群*. 泡沫金属中高速拉伸的试验数据处理与材料力学性能测量. 实验力学. 2020: 35: 978-984.

[32] Wu Y, Qiao D, Tang L*, Xi H, Liu Y, Jiang Z, Liu Z, Zhou L. Global topology of failure surfaces of metallic foams in principal-stress space and principal-strain space studied by numerical simulations. INT J MECH SCI. 2019: 151: 551-562.

[33] Xie B, Xu P, Tang L*, Zhang Y, Xu K, Zhang H, Liu Z, Zhou L, Liu Y, Jiang Z. Dynamic mechanical properties of polyvinyl alcohol hydrogels measured by double-striker electromagnetic driving SHPB system. INT J OF APP MECH. 2019: 11.

[34] Huang Y, Yuan X*, Chen M*, Song W, Chen J, Fan Q, Tang L, Fang D*. Ultrathin multifunctional carbon/glass fiber reinforced lossy lattice metastructure for integrated design of broadband microwave absorption and effective load bearing. CARBON. 2019: 144: 449-456.

[35] Chen Y, Zhang L, Zhao Y, He R*, Ai S*, Tang L, Fang D*. Mechanical behaviors of C/SiC pyramidal lattice core sandwich panel under in-plane compression. COMPOS STRUCT. 2019: 214: 103-113.

[36] Chen Y, Zhao Y, He C, Ai S*, Lei H, Tang L, Fang D*. Yield and failure theory for unidirectional polymer-matrix composites. COMPOS PART B-ENG. 2019: 164: 612-619.

[37] Li W, Chen W, Tang L, Jiang Z*, Huang P*. A general strength model for fiber bundle composites under transverse tension or interlaminar shear. COMPOS PART A-APPL S. 2019: 121: 45-55.

[38] Xu K, Tang L*, Zhang Y, Ding R, Wang X, Huang D, Lin J. Study on the microscopic network model of PVA hydrogel based on the tensile behavior. ACTA MECH SOLIDA SIN. 2019: 32: 663-674.

[39] Zhang G, Tang L, Zhou L*, Liu Z*, Liu Y, Jiang Z. Principal component analysis method with space and time windows for damage detection. SENSORS-BASEL. 2019: 19.

[40] 方奕欣, 陈蔚, 蒋震宇*, 汤立群, 刘逸平, 刘泽佳, 周立成. 碳纤维和SiO2纳米颗粒增强环氧树脂复合材料的压缩性能. 复合材料学报. 2019: 36: 1343-1352.

[41] 张玉婷, 丁榕, 左泽宇, 汤立群*, 刘逸平, 蒋震宇, 刘泽佳, 周立成. 一种由圆柱体试件的侧向压缩力-位移关系同时测量材料弹性模量和泊松比的新方法. 实验力学. 2019: 34: 365-372.

[42] 谢倍欣, 汤立群*, 姜锡权, 史景伦, 赵伟健, 佘瀚笙, 张泳柔, 刘逸平, 蒋震宇. 用于软材料的双子弹电磁驱动SHPB系统. 爆炸与冲击. 2019: 39: 67-73.

[43] Zeng L, Liu Y, Zhang G, Tang L, Jiang Z, Liu Z*. Analysis of structural responses of bridges based on long-term structural health monitoring. MECH ADV MATER STRUC. 2018: 25: 79-86.

[44] Chen J, Xu K, Tang L*, Liu Z, Zhou L. Study on the optimal loading rates in the measurement of viscoelastic properties of hydrogels by conical indentation. MECH MATER. 2018: 119: 42-48.

[45] Huang Y, Yuan X*, Wang C, Chen M, Tang L, Fang D. Flexible thin broadband microwave absorber based on a pyramidal periodic structure of lossy composite. OPT LETT. 2018: 43: 2764-2767.

[46] Huang Y, Song W*, Wang C, Xu Y, Wei W, Chen M*, Tang   L, Fang D. Multi-scale design of electromagnetic composite metamaterials   for broadband microwave absorption. COMPOS SCI TECHNOL. 2018: 162: 206-214.

[47] Zhang Y, Xu K, Bai Y, Tang L*, Jiang Z, Liu Y, Liu Z, Zhou L, Zhou X. Features of the volume change and a new constitutive equation of hydrogels under uniaxial compression. J MECH BEHAV BIOMED. 2018: 85: 181-187.

[48] Lin J, Zhang G, Jiang Z*, Tang L, Lian K. Evaluation of biomechanical health degree of peri-implant bone through finite element analysis: A first approach. INT J OF APP MECH. 2018: 10.

[49] Huang Y, Yuan X, Chen M*, Song W*, Chen J, Fan Q, Tang L, Fang D*. Ultrathin flexible carbon fiber reinforced hierarchical metastructure for broadband microwave absorption with nano lossy composite and multiscale optimization. ACS APPL MATER INTER. 2018: 10: 44731-44740.

[50] Zhang X, Wu Y, Tang L*, Liu Z, Jiang Z, Liu Y, Xi H. Modeling and computing parameters of three-dimensional Voronoi models in nonlinear finite element simulation of closed-cell metallic foams. MECH ADV MATER STRUC. 2018: 25: 1265-1275.

[51] Huang J, Zhang L, Jiang Z*, Dong S*, Chen W, Liu Y, Liu Z, Zhou L, Tang L. Heterogeneous parallel computing accelerated iterative subpixel digital image correlation. SCI CHINA TECHNOL SC. 2018: 61: 74-85.

[52] 李稳, 陈蔚, 汤立群, 蒋震宇*, 刘泽佳, 刘逸平. 基于纤维束增强树脂基复合材料测试的单向层合板层间剪切性能的预估方法. 复合材料学报. 2018: 35: 2793-2803.