罗阳军

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Professor   Supervisor of Doctorate Candidates   Supervisor of Master's Candidates  

Academic Honors : Participant of the Program for New Century Excellent Talents of Ministry of Education of China

Personal Profile

罗阳军,1979年10月生,中国和法国双博士,教授,博士生导师。
办公地址: 大连理工大学综合实验一号楼413B   Email: yangjunluo@dlut.edu.cn

科研成果及所受奖励
在国内外主流学术期刊发表论文40余篇,SCI他引总共近400次,单篇最高SCI他引60次。先后主持国家自然科学基金项目3项,国家重点研发计划子课题1项,省部级项目近10项。入选了人力资源和社会保障部首批“香江学者计划”、教育部“新世纪优秀人才支持计划”及大连理工大学“星海优青”人才培育计划。主要在非概率可靠性理论和拓扑优化等方面取得了创新性研究成果:(1)建立基于多椭球凸模型的非概率可靠性优化模型,提出关心性能方法,改善了极小极大嵌套优化问题的数学性态,进而建立了概率-凸集混合模型下的可靠性概念、评估与优化体系;(2)采用基于D-P准则的应力拓扑优化进行压力相关材料结构设计,首次揭示了压力相关性对最优拓扑的重要影响,为此类结构材料布局设计提供指导;(3)发现可对紧约束进行高精度近似的广义K-S函数,提出增强凝聚方法,有效解决了大规模约束优化问题的求解计算量及精确度难题;(4)提出附加超弹性技术,避免几何非线性拓扑优化中的低密度单元不稳定现象。

指导硕、博士生研究方向
    飞行器不确定性量化
    应力拓扑优化
    薄膜结构分析与设计
    超弹性材料
   
出版著作和论文
[1]    Ming Li, Yanzhuang Niu, Huaping Wu, Xiaopeng Zhang, Yangjun Luo*, Zhan Kang*. Wrinkling and wrinkling-suppression in grapheme membranes with frozen zone. Thin Solid Films, 2017, 638: 345-353.
[2]    Yangjun Luo*, Yanzhuang Niu, Ming Li*, Zhan Kang. A multi-material topology optimization approach for wrinkle-free design of cable-suspended membrane structures. Computational Mechanics, 2017, DOI: 10.1007/s00466-017-1387-2.
[3]    Yangjun Luo, Jian Xing, Yanzhuang Niu, Ming Li*, Zhan Kang*. Wrinkle-free design of thin membrane structures using stress-based topology optimization. Journal of the Mechanics and Physics of Solids, 2017, DOI: 10.1016/j.jmps.2017.02.003.
[4]    Ming Li^, Yangjun Luo^, Huiping Wu, Kai Zhu, Yanzhuang Niu, Tengfei Zhao, Jian Xing, Zhan Kang*. A preneckling strategy makes stretched membranes with clamped ends wrinkle-free. Journal of Applied Mechanics, 2017, 84: 061006.
[5]    Yangjun Luo*, Ming Li, Zhan Kang. Optimal topology design for stress-isolation of soft hyperelastic composite structures under imposed boundary displacements. Structural and Multidisciplinary Optimization. 2017, 55: 1747-1758.
[6]    Liying Liu, Jian Xing, Qingwei Yang, Yangjun Luo*. Design of large-displacement compliant mechanisms by topology optimization incorporating modified additive hyperelasticity technique. Mathematical Problems in Engineering. 2017, 2017: 4679746.
[7]    Jiandong Cai, Michael Yu Wang*, Qi Xia, Yangjun Luo. Optimal design of tapping mode atomic force microscopy cantilever probe with resonance harmonics assignment. Engineering Optimization, 2017, 49(1): 43-59.
[8]    Pai Liu, Yangjun Luo, Zhan Kang*. Multi-material topology optimization considering interface behavior via XFEM and level set method. Computer Methods in Applied Mechanics and Engineering, 2016, 308: 113-133.
[9]    Yangjun Luo*, Ming Li, Zhan Kang. Topology optimization of hyperelastic structures with frictionless contact supports. International Journal of Solids and Structures, 2016, 81(3): 373-382.
[10]    Yangjun Luo*, Michael Yu Wang, Zhou Mingdong, Deng Zichen. Topology optimization of reinforced concrete structures considering control of shrinkage and strength failure. Computers & Structures, 2015, 157: 31-41.
[11]    Yangjun Luo*, Michael Yu Wang, Zhan Kang. Topology optimization of geometrically nonlinear structures based on an additive hyperelasticity technique. Computer Methods in Applied Mechanics and Engineering, 2015, 286: 422-441.
[12]    Yangjun Luo*, Xiaoxiang Wu, Mingdong Zhou, Michael Yu Wang. Simultaneous parameter and tolerance optimization of structures via probability-interval mixed reliability model. Structural and Multidisciplinary Optimization, 2015, 51: 705-719.
[13]    Jiandong Cai, Qi Xia*, Yangjun Luo, Li Zhang, Michael Yu Wang*. A variable-width harmonic probe for multifrequency atomic force microscopy. Applied Physics Letters, 2015, 106, 071901.
[14]    Yangjun Luo*, Mingdong Zhou, Michael Yu Wang*, Zichen Deng. Reliability based topology optimization for continuum structures with local failure constraints. Computers & Structures, 2014, 143: 73-84.
[15]    Yangjun Luo*, Michael Yu Wang*, Zhan Kang. An enhanced aggregation method for topology optimization with local stress constraints. Computer Methods in Applied Mechanics and Engineering, 2013, 254: 31-41.
[16]    Yangjun Luo*, Zhan Kang. Layout design of reinforced concrete structures using two-material topology optimization with Drucker-Prager yield constraints. Structural and Multidisciplinary Optimization, 2013, 47(1): 95-110.
[17]    Yangjun Luo*, Michael Yu Wang, Zichen Deng. Stress-based topology optimization of concrete structures with prestressing reinforcements. Engineering Optimization, 2013, 45(11): 1349-1364.
[18]    Yangjun Luo*, Michael Yu Wang*, Mingdong Zhou, Zichen Deng. Optimal topology design of steel-concrete composite structures under stiffness and strength constraints. Computers & Structures, 2012, 112-113: 433-444.
[19]    Zhan Kang*, Yangjun Luo. Sensitivity analysis of viscoplastic deformation process with application to metal perform design optimization. Engineering Optimization. 2012, 44(12): 1511-1523.
[20]    Yangjun Luo*, Zhan Kang, Zhufeng Yue. Maximal stiffness design of two-material structures by topology optimization with nonprobabilistic reliability. AIAA Journal, 2012, 50(9): 1993-2003.
[21]    Yangjun Luo*, Zhan Kang. Topology optimization of continuum structures with Drucker-Prager yield stress constraints. Computers & Structures, 2012, 90-91(1): 65-75.
[22]    Yangjun Luo, Alex Li*, Zhan Kang. Parametric study of bonded steel-concrete composite beams by using finite element analysis. Engineering Structures, 2012, 34(1): 40-51.
[23]    Yangjun Luo, Alex Li*, Zhan Kang. Reliability-based design optimization of adhesive bonded steel-concrete composite beams with probabilistic and non-probabilistic uncertainties. Engineering Structures, 2011, 33(7): 2110-2119.
[24]    Zhan Kang*, Yangjun Luo, Alex Li. On non-probabilistic reliability-based design optimization of structures with uncertain-but-bounded parameters. Structural Safety, 2011, 33(3): 196-205.
[25]    Zhan Kang*, Yangjun Luo. Reliability-based structural optimization with probability and convex set hybrid models. Structural and Multidisciplinary Optimization, 2010, 42(1): 89-102.
[26]    Yangjun Luo, Zhan Kang*, Zhen Luo, Alex Li. Continuum topology optimization with non-probabilistic reliability constraints based on multi-ellipsoid convex model. Structural and Multidisciplinary Optimization, 2009, 39(3):297-310.
[27]    Yangjun Luo, Zhan Kang*, Alex Li. Structural reliability assessment based on probability and convex set mixed model. Computers & Structures, 2009, 87(21-22): 1408-1415.
[28]    Zhan Kang*, Yangjun Luo. Non-probabilistic reliability-based topology optimization of geometrically nonlinear structures using convex models. Computer Methods in Applied Mechanics and Engineering, 2009, 198(41-44): 3228-3238.

科研项目
[1]    国家自然科学基金联合基金重点项目:“航空装备结构紧凑空间中集成布局优化设计方法”,2016年1月–2019年12月,(排名第二)
[2]    国家自然科学基金面上项目:“面向空间展开与无皱设计的薄膜结构拓扑优化方法研究”,2018年1月–2021年12月
[3]    国家自然科学基金面上项目:“应力约束下多相材料结构非概率可靠性拓扑优化方法研究”,2015年1月–2018年12月
[4]    国家自然科学基金青年项目:“基于凸模型的双材料结构可靠性拓扑优化理论和方法研究”,2011年1月–2013年12月
[5]    国家重点研发计划项目子课题:“电机优化设计平台-优化算法开发”,2017年7月–2020年12月
[6]    教育部新世纪优秀人才计划:压力相关材料结构应力拓扑优化,2013年1月–2015年12月
[7]    香江学者计划:“应力约束下连续体可靠性拓扑优化若干问题研究”,2012年2月–2014年2月
[8]    陕西省自然科学基金面上项目:“基于概率-凸集混合模型的飞行器结构可靠性评估方法”,2010年7月–2012年12月
[9]    第51批中国博士后科学基金面上资助:“考虑制造成本的结构可靠性公差优化设计”,2012年7月–2014年2月
[10]    第42批教育部留学回国人员科研启动基金:“考虑大变形影响的多相材料结构可靠性拓扑优化”2011年10月–2013年10月
[11]    留学人员科技活动择优资助项目:“各类不确定信息下连续体结构鲁棒性拓扑优化方法研究”,2011年1月–2011年12月
[12]    大连理工大学星海学者培育计划(星海优青):“超弹性结构不确定性量化与拓扑优化”,2015年1月-2018年12月

Education BackgroundMore>>

2006.7 2009.6

  • 兰斯大学
  • 结构工程
  • Doctoral Degree

2004.3 2009.5

  • 大连理工大学
  • 力学
  • Doctoral Degree

2001.9 2004.1

  • 西北农林科技大学
  • 水利水电工程
  • Master's Degree

Work Experience

2015.1 Now
  • 大连理工大学
2012.2 2014.2
  • 香港中文大学
2009.7 2015.1
  • 西北工业大学

Social Affiliations

Research Focus

  • 可靠性设计与优化,拓扑优化,空间薄膜结构