摘要
局域共振带隙和Bragg带隙可同时存在于超材料梁中,利用两种带隙之间的相互耦合效应可以实现超宽耦合带隙设计,在宽带减振领域极具应用潜力.以往研究通常考虑单振子超材料梁的单阶耦合带隙设计,因而只能实现单阶的超宽耦合带隙,无法满足双目标或多目标频带的宽带减振需求.为此,本文开展了双振子超材料梁的双阶耦合带隙调控设计研究,提出了一种实现双阶耦合宽带隙的设计方法,分析了所设计双阶耦合带隙相比传统单阶耦合带隙的带宽优势,并探究了双振子质量分配比对双阶耦合带隙总宽度的影响,进一步设计出最优的质量分配比,使得实现的双阶耦合带隙的总宽度最宽.此外,还采用谱元法研究了基于双阶耦合带隙设计的双振子超材料梁的减振特性,通过与有限元法进行对比,验证了谱元法的准确性,研究表明基于双阶耦合带隙设计可以实现两个宽频带范围的高效减振.
Local-resonance bandgap and Bragg bandgap can coexist in a metamaterial beam,and their coupling effect can be used to realize ultra-wide bandgap,which has great potential applications in the field of wide-band vibration reduction.Previous studies usually considered the single-order coupling between the local-resonance bandgap and Bragg bandgap in metamaterial beams with a single array of local resonators,which can only achieve the single-order ultra-wide coupling bandgap and cannot meet the wide-band vibration reduction requirements of double/multiple target frequency bands.In this paper,metamaterial beams with double arrays of local resonators are considered,and the regulation design and analysis of double-order coupling of localresonance and Bragg bandgaps are carried out based on an analytical model of bending wave dispersion relation.Moreover,the vibration reduction characteristics of the double-frequency-resonator metamaterial beams with double-order coupling bandgaps are studied by using spectral element method and the finite element method.The main conclusions are as follows.1)A design method is proposed for realizing double-order coupling wide bandgap in a metamaterial beam with double arrays of local resonators.By using this method,the resonance frequencies of the local resonators can be quickly designed on conditions that host beam parameters,lattice constant and added mass ratio of the local resonators are given.2)The double-order coupling bandgaps in a metamaterial beam carrying double arrays of local resonators are compared with the single-order coupling bandgaps in metamaterial beams with a single array of local resonators.It is found that through proper design,the total normalized width of the double-order coupling bandgap can be much broader than that of the single-order coupling bandgap,so the double-order coupling bandgap is more beneficial to wide-band vibration reduction.3)It is found that for a given total added mass ratio of the double arrays of local resonators,it is necessary to optimize t
作者
刘权兴
何哲星
李永强
温激鸿
肖勇
Liu Quan-Xing;He Zhe-Xing;Li Yong-Qiang;Wen Ji-Hong;Xiao Yong(Laboratory of Science and Technology on Integrated Logistics Support,College of Intelligence Science and Technology,National University of Defense Technology,Changsha 410073,China)
出处
《物理学报》
SCIE
EI
CAS
CSCD
北大核心
2024年第15期106-122,共17页
Acta Physica Sinica
基金
国家自然科学基金重大项目(批准号:11991032)
国家自然科学基金(批准号:51875569)资助的课题
关键词
超材料梁
弯曲波带隙
耦合带隙
宽带减振
metamaterial beam
flexural wave bandgap
coupled bandgap
broadband vibration reduction
