田阔

基本信息Personal Information

任职 : 助理研究员

性别:男

出生日期:1989-10-24

学位:博士

在职信息:博士后

所在单位:机械工程学院

学科:工程力学 航空航天力学与工程

联系方式:tiankuo@dlut.edu.cn

电子邮箱:

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个人简介Personal Profile

教育经历:

2008.9-2012.6 大连理工大学工程力学系 工学学士 导师:王博 教授

2012.9-2018.9 大连理工大学工程力学系 工学博士 导师:王博 教授

2016.10-2018.4 华盛顿大学航空航天系 联合培养博士 导师:Anthony Waas 欧洲科学院院士


工作经历:

2018.11-至今 大连理工大学机械工程系 博士后 合作导师:王永青 教授


主持项目:

1. 热振环境下异形曲面加筋壳降阶分析及多样性优化方法。国家自然科学基金青年基金项目(11902065) ,2020.1-2022.12,总经费27万元

2. 热振环境下异形曲面加筋壳布局优化设计方法研究。中国博士后科学基金面上项目(2019M651107),2019.5-2020.12

3. ZL航天器结构优化设计。航天五院载人航天总体部横向项目,2018.11-2018.12,总经费50万元


参与项目:

1. 计及缺陷敏感性的网格加筋筒壳结构轻量化设计理论与方法。科技部973计划青年科学家专题,2014.01-2018.12,总经费444万元

2. 多级网格加筋壳的低缺陷敏感性能研究与优化设计。国家自然科学基金面上项目,2014.01-2017.12,总经费82万元

3. 金属舱体拓扑优化设计。航天一院十所横向项目,2014.07-2014.12,总经费26万元


学术兼职:

美国航空航天学会AIAA会员

中国力学学会会员(S030004926M)


主要研究方向及研究成果:

针对运载火箭中主承力的多层级筒壳结构,解决了其屈曲分析效率低及全局寻优能力差的难题。分别基于结构等效和模型降阶方法,建立了高效率、高精度的多层级筒壳结构线性屈曲、后屈曲分析及优化方法;在此基础上,提出了多保真度竞争性抽样及优化方法,有效提高了多层级筒壳结构优化的全局寻优能力。研究成果为运载火箭多层级筒壳结构提供了准确可靠的设计、分析及优化方法及工具,有效缩短了箭体研发周期。相关研究成果及开发软件已在航天一院一部获得工程应用。

同时,与德国宇航中心,约翰霍普金斯大学、华盛顿大学和密歇根大学的同行围绕网格加筋壳的缺陷敏感性分析、不确定性传播及模型减缩等相关热点问题进行了合作研究并合作发表了学术论文。担任《Composite Structures》、《Composites Part B: Engineering》、《Journal of Pressure Vessel Technology-Transactions of the ASME》、《Journal of Reinforced Plastics and Composites》、《Thin-walled Structures》、《Aerospace Science and Technology》、《Measurement》、《Journal of Cleaner Production》等SCI期刊的通讯审稿人。

 

SCI检索论文:

Tian K, Wang B, Zhou Y, et al. Proper-orthogonal-decomposition-based buckling analysis and optimization of hybrid fiber composite shells. AIAA Journal, 2018, 56(5): 1723-1730.

Tian K, Wang B, Zhang K, et al. Tailoring the optimal load-carrying efficiency of hierarchical stiffened shells by competitive sampling. Thin-Walled Structures, 2018, 133: 216-225.

Tian K, Wang B, Hao P, et al. A high-fidelity approximate model for determining lower-bound buckling loads for stiffened shells. International Journal of Solids and Structures, 2018, 148: 14-23.

Tian K, Jiaxin Zhang, Xiangtao Ma, et al.Buckling surrogate-based optimization framework for hierarchical stiffened composite shells by enhanced variance reduction method. Journal of Reinforced Plastics and Composites,2019,Accepted.

Wang B, Tian K, Hao P, Cai YW, Li YW, Sun Y. Hybrid analysis and optimization of hierarchical stiffened plates based on asymptotic homogenization method. Composite Structures, 132: 136-147, 2015.

Wang B, Tian K, Hao P, Zheng YB, Ma YL, Wang JB. Numerical-based smeared stiffener method for global buckling analysis of grid-stiffened composite cylindrical shells. Composite Structures, 152: 807-815, 2016. 

Wang B, Tian K, Zhou CH, Hao P, Zheng YB, Ma YL, Wang JB. Grid-pattern optimization framework of novel hierarchical stiffened shells allowing for imperfection sensitivity. Aerospace Science and Technology, 62: 114-121, 2017.

Wang B, Tian K, Zhao HX, Hao P, Zhu TY, Zhang K, Ma YL. Multilevel optimization framework for hierarchical stiffened shells accelerated by adaptive equivalent strategy. Applied Composite Materials, 24(3): 575-592, 2017.

Hao P, Wang B, Tian K, Li G, Du KF, Niu F. Efficient optimization of cylindrical stiffened shells with reinforced cutouts by curvilinear stiffeners. AIAA Journal, 54(4): 1350-1363, 2016.

Hao P, Wang B, Tian K, Du KF, Zhang X. Influence of imperfection distributions for cylindrical stiffened shells with weld lands. Thin-Walled Structures, 93: 177-187, 2015.

Hao P, Wang B, Tian K, Li G, Zhang X. Optimization of curvilinearly stiffened panels with single cutout concerning the collapse load. International Journal of Structural Stability and Dynamics, 16(7), 1550036 (21 pages), 2016.

Hao P, Wang B, Tian K, Li G, Du KF, Luan Y. Integrated optimization of hybrid-stiffness stiffened shells based on sub-panel elements. Thin-Walled Structures, 103: 171-182, 2016.

Hao P, Wang B, Tian K, Liu HL, Wang YT, Niu F, Zeng DJ. Simultaneous buckling design of stiffened shells with multiple cutouts. Engineering Optimization, 49(7): 1116-1132, 2017.

Hao P, Wang B, Tian K, Li G, Sun Y, Zhou CX. Fast procedure for non-uniform optimum design of stiffened shells under buckling constraint. Structural and Multidisciplinary Optimization, 55(4): 1503-1516, 2017.

Zhou CH, Jiang L, Tian K, et al. Origami crash boxes subjected to dynamic oblique loading. Journal of Applied Mechanics, 2017, 84(9): 091006.

Wang B, Hao P, Li G, Tian K, Du KF, Wang XJ, Zhang X, Tang XH. Two-stage size-layout optimization of axially compressed stiffened panels. Structural and Multidisciplinary Optimization, 50(2): 313-327, 2014.

Wang B, Hao P, Li G, Zhang JX, Du KF, Tian K, Wang XJ, Tang XH. Optimum design of hierarchical stiffened shells for low imperfection sensitivity. Acta Mechanica Sinica, 30(3): 391-402, 2014.

Wagner HNR, Hühne C, Niemann S, Tian K, Wang B, Hao P. Robust knockdown factors for the design of cylindrical shells under axial compression: Analysis and modeling of stiffened and unstiffened cylinders. Thin-Walled Structures, 127: 629-645, 2018.

Hao P, Wang YT, Liu C, Wang B, Tian K, Li G, Jiang LL. Hierarchical non-deterministic optimization of curvilinearly stiffened aircraft panel with multicutouts. AIAA Journal, 2018.

19.Wu Y, Yu K, Yang L, Zhao R, Shi XT, Tian K. Effect of thermal stresses on frequency band structures of elastic metamaterial plates. Journal of Sound and Vibration, 2018, 413: 101-119.

Wang B, Du KF, Hao P, Zhou CH, Tian K, Xu SS, Ma YL, Zhang X. Numerically and experimentally predicted knockdown factors for stiffened shells under axial compression. Thin-Walled Structures, 2016, 109: 13-24.

Hao P, Wang B, Du KF, Li G, Tian K, Sun Y, Ma YL. Imperfection-insensitive design of stiffened conical shells based on perturbation load approach. Composite Structures, 136: 405-413, 2016.

Hao P, Wang B, Li G, Meng Z, Tian K, Zeng DJ, Tang XH. Worst Multiple Perturbation Load Approach of stiffened shells with and without cutouts for improved knockdown factors. Thin-Walled Structures, 82: 321-330, 2014.

Hao P, Wang B, Li G, Tian K, Du KF, Wang XJ, Tang XH. Surrogate-based optimization of stiffened shells including load-carrying capacity and imperfection sensitivity. Thin-Walled Structures, 72(15): 164-174, 2013.

Hao P, Wang B, Li G, Meng Z, Tian K, Tang XH. Hybrid optimization of hierarchical stiffened shells based on smeared stiffener method and finite element method. Thin-Walled Structures, 82: 46-54, 2014.

 

EI检索论文:

1.王博, 田阔, 郝鹏, 等. 多级加筋板结构承载性能与缺陷敏感度研究. 固体火箭技术, 2014, 37(3): 408-412.

2.王博, 田阔, 郑岩冰, 等. 超大直径网格加筋筒壳快速屈曲分析方法. 航空学报, 2017, 38(2): 178-186.

3.王博, 杜凯繁, 郝鹏, 田阔. 考虑几何缺陷的轴压双层蒙皮加筋柱壳结构设计.中国科学:物理学 力学 天文学, 2018, 014608-1-014608-8.

4.Wang B, Hao P, Li G, Tian K, Wang XJ, Zhang X, Tang XH. Improved knockdown factors for cylindrical shells using worst multi-perturbation load approach. Shell structures: theory and application, 2013, 3: 263-266.

 

核心期刊:

1.王博, 田阔, 郝鹏, 等. 变截面加筋板尺寸-布局一体化设计. 固体火箭技术, 2017, 40(2): 208-213.

 

专利、软件著作权情况

1. 王博,田阔,郝鹏,等. 一种梯度分布式加筋补强筒壳结构. 国家发明专利:CN106956784B. 授权日期:2019.01.01.

2. 郝鹏,黄诚,王博,田阔,等. 一种轴压加筋柱壳的开口补强方法. 国家发明专利:2015102797836. 授权日期:2017.07.11.

3. 王博,郝鹏,李刚,田阔,等. 一种轴压筒壳结构承载力折减因子确定方法. 国家发明专利:201310113723.8. 授权日期:2015.10.28.

4. 郝鹏,王博,田阔,等. 軸方向圧力補強リブ円筒殻における開口補強方法. 日本发明专利:2016-054255. 授权日期:2017.11.02.

5. 王博,郝鹏,李刚,田阔,等. Method for determining reduction factor of bearing capacity of axial load cylindrical shell structure. 美国发明专利:US9645054. 授权日期:2017.05.09.

6. 王博,郝鹏,李刚,田阔,等. Method for determining reduction factor of bearing capacity of axial load cylindrical shell structure. 欧盟发明专利:14779155.2. 授权日期:2018.08.27.

7. 王博,田阔,赵海心,等,网格加筋筒壳快速屈曲分析和优化软件. 公开日期:2015.10.10.





  • 教育经历Education Background
  • 工作经历Work Experience
  • 研究方向Research Focus
  • 社会兼职Social Affiliations
  • 面向航空航天薄壁板壳结构的等效分析、模型降阶、变保真度代理模型及结构优化