[1] DUGRÉ A,VADEAN A,CHAUSÉE J. Challenges of using topology optimization for the design of pressurized stiffened panels[J]. Structural & Multidisciplinary Optimization,2016,53(2):303-320. [2] WANG Bo,TIAN Kuo,HAO Peng,et al. Hybrid analysis and optimization of hierarchical stiffened plates based on asymptotic homogenization method[J]. Composite Structures,2015,132(11):136-147. [3] SHOBEIRI V. Bidirectional evolutionary structural optimization for nonlinear structures under dynamic loads[J]. International Journal for Numerical Methods in Engineering,2019(36):1-16. [4] ZHU Benliang, ZHANG Xianmin,LIU Min,et al. Topological and shape optimization of flexure hinges for designing compliant mechanisms using the level set method[J]. Chinese Journal of Mechanical Engineering,2019,32(1):42-53. [5] YU Ying,LI Yongsheng,YU Xiaochun. Application of particle swarm optimization in the engineering optimization design[J]. Journal of Mechanical Engineering,2008,44(12):226-231. [6] KOBAYASHI M H. On a biologically inspired topology optimization method[J]. Communications in Nonlinear Science & Numerical Simulations,2010,15(3):787-802. [7] 季金,丁晓红,熊敏. 基于最优准则法的板壳结构加筋自适应成长技术[J]. 机械工程学报,2014,50(11):162-169. JI JIN,DING Xiaohong,XIONG Min. Adaptive growth technique of stiffener layout design for plate/shell structures based on optimality criterion[J]. Journal of Mechanical Engineering,2004,50(11):162-169. [8] 丁晓红,林建中,山崎光悦. 利用植物根系形态形成机理的加筋薄壳结构拓扑优化设计[J]. 机械工程学报,2008,44(4):207-211. DING Xiaohong,LIN Jianzhong,YAMAZAKI Koestu. Topology design optimization of stiffened thin-wall shell structures based on growth mechanism of root system[J]. Journal of Mechanical Engineering,2008,44(4):207-211. [9] 郭策,陆振玉,吴元琦. 仿生轻质结构在飞机大开口区的应用及其优化设计[J]. 机械工程学报,2017, 53(13):125-134. GUO Ce,LU Zhengyu,WU Yuanqi. The application of biomimetic lightweight sandwich panel to the aircraft structure with large cutout and its optimum design[J]. Journal of Mechanical Engineering,2017,53(13):125-134. [10] 薛开,李永欣. 板壳结构加筋布局的仿生脉序生长算法[J]. 哈尔滨工程大学学报,2011,32(9):1262-1266. XUE Kai,LI Yongxin. A bionic venation growth algorithm for a stiffener layout in plate/shell structure[J]. Journal of Mechanical Engineering,2011,32(9):1262-1266. [11] 滕晓艳,江旭东,邹广平,等. 简谐激励下板壳结构加强筋仿生布局降噪方法[J]. 振动与冲击,2016,35(6):1-6. TENG Xiaoyan,JIANG Xudong,ZOU Guangping,et al. Bionic approach for stiffener layout on plate and shell structure under harmonic excitation for noise reduction[J]. Journal of Vibration and shock,2016,35(6):1-6. [12] 滕晓艳,江旭东,史冬岩. 薄板结构低噪声仿生拓扑优化方法[J]. 中国机械工程,2016, 27(10):1358-1364. TENG Xiaoyan,JIANG Xudong,SHI Dongyan. A bionic approach of topology optimization to low noise for thin plates[J]. China mechanical engineering,2016,27(10):1358-1364. [13] 李彤. 模拟植物生长算法原理及应用[M]. 北京:科学出版社,2016. LI Tong. Principle and application of simulated plant growth algorithm[M]. Beijing:Science Press,2016. [14] 唐明裴,阎贵平. 结构灵敏度分析及计算方法概述[J]. 中国铁道科学,2003, 24(1):74-79. TANG Minpei,YAN Guiping. Overview of structural sensitivity analysis and computation method[J]. China Rail Way Science,2003,24(1):74-79. [15] 刘聪,姜哲. 薄板结构辐射声功率及其灵敏度分析[J]. 噪声与振动控制, 2012(4):116-120. LIU Cong,JIANG Zhe. Study of radiated sound power and its sensitivity analysis of plate[J]. Noise and Vibration Control,2012(4):116-120. [16] RAYLEIGH L,NACHTRIEB N H. The theory of sound[J]. Physics Today,1957,10(1):32-34. [17] 毛崎波,皮耶奇克,吴文伟,等. 基于MATLAB的噪声和振动控制[M]. 哈尔滨:哈尔滨工程大学出版社, 2016. MAO Qibo,PIETRZKO S,WU Wenwei,et al. Control of noise and structure vibration:A matlab-based approach[M]. Harbin:Harbin Engineering University Press,2016. |