欢迎访问华中科技大学土木工程与力学学院!

公告栏:
网站搜索:

陈建桥

发布者:admin         发布时间:2016-03-22 16:37         浏览次数:

 陈建桥:教授 / 博士生导师

 Professor Jianqiao CHEN

 华中科技大学力学系,邮编430074武汉市洪山区珞喻路1037

 Phone:+86 27 87543738, Email: jqchen#mail.hust.edu.cn

 >>>>>>>>>>>>>>>>>>>>>>

 华中工学院本科毕业,名古屋大学硕士和博士毕业。任日本丰桥技术科学大学、鸟取大学副教授,1999年起任华中科技大学教授、博士生导师,2000 – 2007年任力学系主任。《固体力学学报》英文版编委,中国宇航学会结构强度与环境工程专委会委员,中国力学学会固体力学专委会断裂与疲劳组成员,湖北省复合材料学会副理事长。获国务院政府特殊津贴,全国力学教学优秀教师,华中科技大学“三育人奖”,华中科技大学研究生会首届我最喜爱的导师

主要研究方向:复合材料力学,材料强度学,结构可靠性分析,结构优化设计方法,PSO等进化算法及其应用。发表学术论文120余篇,出版《复合材料力学概论》、《复合材料力学》、《材料强度学》等著作。先后主持国家基金:(1)纤维复合材料的强度鲁棒性及软设计;(2)考虑信息缺陷和人为因素的结构可靠性设计理论;(3) 时空非均匀人群疏散动力学建模及灾害风险最小化设计;(4)结构的时变可靠性分析及全寿命优化的最优控制理论方法。以及教育部博士点基金、国际合作、国防973等科研项目。

 

主持完成的科研项目:

1. 纤维复合材料的强度鲁棒性及软设计 (国家自然科学基金)

2. 考虑信息缺陷和人为因素的结构可靠性设计理论(国家自然科学基金)

3. 时空非均匀人群疏散动力学建模及灾害风险最小化设计(国家自然科学基金)

4. 突发事件下公共场馆人群疏散动力学建模及灾害风险评估方法(基金委国际合作)

5. CFALL的强度特征及混合不确定因素下的可靠性设计(博士点基金)

6. ××××优化设计方法(国防973子专题)

7. 热镀锌锅锌液流动传热及气刀吹锌数值研究(武钢重大专项)

8. 结构的时变可靠性分析及全寿命优化的最优控制理论方法(国家自然科学基金,在研)

发表的部分论文

(部分论文PDF下载)、(复合材料力学课件下载)

1.     A surrogate-based particle swarmoptimization algorithm for solving optimization problems with expensive blackbox functions, EngOptimization, 45(2013): 557-576.

2.     Modelingof pedestrian evacuation under fire emergency based on an extendedheterogeneous lattice gas model. Physica A.392(2013): 1994-2006.

3.     Reliability design optimizationof composite structures based on PSO together with FEA, Chinese J Aeronautics, 26(2013): 343-349.

4.     A heterogeneous lattice gas modelfor simulating pedestrian evacuation. PhysicaA, 391(2012): 582-592.

5.     Modeling ofpedestrian evacuation based on the particle swarm optimization algorithm.Physica A, 391(2012): 4225-4233.

6.     Asequential algorithm for reliability-based robust design optimization underepistemic uncertainty. J Mechanical Design, 134 (2012): 1-10.

7.     Optimal strength design forFiber-metal laminates and Fiber-reinforced plastic laminates, J Comp Mater. 45(2011): 237-254.

8.     Influences of overtaking on two-lanetraffic with signals, Physica-A. 389(2010): 141-148.

9.     Optimaldesign of composite laminates for minimizing delamination stresses by ParticleSwarm Optimization combined with FEM, Struct Eng Mech, 31(2009): 407-421.

10.     Reliability-based design of compositesunder the mixed uncertainties and the optimization algorithm. Aata Mechanica Solida Sinica, 21(2008): 19-27.

11.  Probabilistic optimal design oflaminates using improved particle swarm optimization, Eng Optimization, 40(2008): 695-708.

12.  Fuzzy robust design of FRP Laminates,JComp Mater. 42-2 (2008): 211-223.

13.  Reliability of FRP laminated plateswith consideration of both initial imperfection and failure sequence, Acta Mechanica SolidaSinica, 15-3 (2002): 227-235.

14.  Application of fracture mechanicsto the surface crack propagation in stainless steel at elevated temperature, Acta Materialia, 45 (1997): 2495-2500.

15.  Distribution of dislocations at aMode I crack tip and their shielding effect, Inter J Fracture, 100 (2000): 307-320.

16.  Application of surrogate basedparticle swarm optimization to the reliability-based robust design of compositepressure vessels, Acta Mechanica Solida Sinica,26-5 (2013): 480-490.

17. Sequential algorithms for structural design optimization under tolerance conditions, Engineering Optimization. 2014, 46(9): 1183-1199

18.  A time dependent reliability model of deteriorating structures based on stochastic processes and Bayesian inference methods, J of Engineering Mechanics,March, 2015, 141(3): 04014123-1,11。

19.X.Huang, J.Chen, H.Zhu, Assessing smaill failure probabilities byAK-SS: an active learning method combining Kriging and Subset Simulation. StructuralSafety, Volume 59, March2016, Pages 86–95

 

          2013论文

 

 

          2016-复合材料力学-课件1
          2016-复合材料力学-课件2