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Department of Engineering Mechanics
State Key Laboratory of Structural Analysis for Industrial Equipment
Dalian University of Technology
Dalian 116024, China
Biography:
Dr. Peng Hao is Assistant Professor of Dalian University of Technology. He is currently ISSMO member. Dr. Hao was awarded "Outstanding Young Scientist" in the 7th China-Japan-Korea Joint Symposium on Optimization of Structural and Mechanical Systems. He has published over 30 journal articles indexed by SCI/EI, and is author of two national invention patents.
Education:
Ph.D. Dalian University of Technology & China Academy of Launch Vehicle Technology
Research Interests:
Reliability analysis;
Buckling and instability;
Structural optimization;
Imperfection sensitivity;
Composite structures;
Finite element analysis (isogeometric analysis)
Selected Publications:
[1] Hao P, Wang B, Li G. Surrogate-based optimum design for stiffened shells with adaptive sampling. AIAA Journal, 50(11): 2389-2407, 2012.
[2] Hao P, Wang B, Li G, et al. Hybrid framework for reliability-based design optimization of imperfect stiffened shells. AIAA Journal, 53(10): 2878-2889, 2015.
[3] Hao P, Wang B, Tian K, et al. Efficient optimization of cylindrical stiffened shells with reinforced cutouts by curvilinear stiffeners. AIAA Journal, 2016.
[4] Hao P, Wang B, Du KF, et al. Imperfection-insensitive design of stiffened conical shells based on perturbation load approach. Composite Structures, 136: 405-413, 2016.
[5] Hao P, Wang B, Li G, et al. Surrogate-based optimization of stiffened shells including load-carrying capacity and imperfection sensitivity. Thin-Walled Structures, 72(15): 164-174, 2013.
[6] Hao P, Wang B, Li G, et al. Hybrid optimization of hierarchical stiffened shells based on smeared stiffener method and finite element method. Thin-Walled Structures, 2014, 82: 46-54.
[7] Hao P, Wang B, Li G, et al. Worst Multiple Perturbation Load Approach of stiffened shells with and without cutouts for improved knockdown factors. Thin-Walled Structures, 2014, 82: 321-330.
[8] Hao P, Wang B, Tian K, et al. Influence of imperfection distributions for cylindrical stiffened shells with weld lands. Thin-Walled Structures, 2015, 93: 177-187.
[9] Hao P, Wang B, Tian K, et al. Optimization of curvilinearly stiffened panels with single cutout concerning the collapse load. International Journal of Structural Stability and Dynamics, 2016, 16, 1550036 (21 pages).
[10] Wang B, Hao P, Li G, et al. Generatrix shape optimization of stiffened shells for low imperfection sensitivity. Science China, 2014, 57(10): 2012-2019.
[11] Meng Z, Hao P, Li G, et al. Non-probabilistic reliability-based design optimization of stiffened shells under buckling constraint. Thin-Walled Structures, 2015, 94: 325-333.
[12] Wang B, Tian K, Hao P, et al. Hybrid Analysis and Optimization of Hierarchical Stiffened Plates Based on Asymptotic Homogenization Method. Composite Structures, 2015, 132: 136-147. S
[13] Li G, Fang YC, Hao P. Three-point bending deflection and failure mechanism map of sandwich beams with second-order hierarchical corrugated truss core. Journal of Sandwich Structures and Materials, 2016.
[14] Li G, Meng Z, Hao P. A hybrid reliability-based design optimization approach with adaptive chaos control using kriging model.International Journal of Computational Methods, 2016.
[15] Wang B, Hao P, Li G, et al. Determination of realistic worst imperfection for cylindrical shells using surrogate model. Structural and Multidisciplinary Optimization, 2013, 48(4): 777-794.
[16] Wang B, Hao P, Li G, et al. Two-stage size-layout optimization of axially compressed stiffened panels. Structural and Multidisciplinary Optimization, 2014, 50(2): 313-327.
[17] Wang B, Hao P, Li G, et al. Optimum design of hierarchical stiffened shells for low imperfection sensitivity. Acta Mechanica Sinica, 2014, 30(3): 391-402.
[18] Meng Z, Li G, Wang BP, Hao P. A hybrid chaos control approach of the performance measure functions for reliability-based design. Computers & Structures, 2015, 146: 32-43.
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