Step impedance resonator‐based tunable perfect metamaterial absorber with polarization insensitivity for solar cell applications

In this work, a step impedance resonator (SIR)‐based structure is proposed to develop a compact tunable metamaterial (MTM)‐based perfect absorber for solar cell applications. This MTM absorber is able to improve the absorption over a wide range of visible frequency range from 550 to 650 THz. The absorption is high around the frequency 600 THz. The proposed model is designed based on SIR technique to achieve miniaturization. The parametric study of overall size of the proposed MTM absorber analyzed over the frequency range 430‐750 THz. The thickness of dielectric spacer, and top most layer (MTM Structure) illustrates the tunable characteristics of the proposed model. A complete comparative analysis of proposed model with different dielectric spacers like AlGaAs, InAs, GaAs, and AlAs are presented with the help of absorption (S₁₁) and transmission (S₁₂). The proposed model is suitable for high efficiency solar cell energy harvesting applications.     

消隔组合X型减振器设计与动力学分析

本文将一种X型结构与线性弹簧阻尼减振器相结合构成一种兼具消振和隔振性能的新型X型减振器.基于拉格朗日方法建立单自由度线性振子耦合消隔组合X型减振器系统的动力学方程,应用谐波平衡法得到系统稳态响应的近似解析解,并通过Runge Kutta法得到系统的数值解验证解析解的正确性.讨论了不同的基础激励下新型X型减振器对系统的响应幅值以及位移传递率的减振效果.此外,分析了不同参数对系统的幅频响应曲线以及位移传递率的影响.研究结果表明,新型X型减振器不仅可以将线性刚度转化为非线性刚度,还可以为系统提供负刚度,拥有优秀的消振和超低频隔振性能.     

基于非线性能量阱的深海柔性张力腿的振动抑制

本文研究了基于非线性能量阱的深海柔性张力腿的振动抑制问题.考虑端部参数激励和非线性能量阱(NES)作用下的张力腿力学模型,采用哈密顿变分原理推导出非线性振动控制的运动微分方程,利用伽辽金法进行离散化.通过参数分析和数值仿真计算,得到柔性张力腿的横向位移模态振动响应,同时还对比分析了NES与调谐质量阻尼器的减振性能.结果表明,相同情况下NES具有更为显著的减振效果,并且可以通过调整NES吸振器的参数,达到最优振动控制效果.     

压电超材料单元设计及在弹性梁减振中的应用

超材料是将不同性质的材料按照某种规律组合在一起形成的一种周期材料.由于其对弹性波的传递会产生带隙效应,因此在噪声控制、减振隔振等领域得到重视.本文设计了一种压电超材料,通过压电材料元胞的周期性排列,产生频率带隙,以获得减振效果.结构尺寸及厚度小,可以粘贴在主结构上.首先分析了设计的压电超材料色散特性;其次,利用压电超材料对悬臂梁结构进行了减振研究,分析了若干个元胞组成的压电超材料对梁振动能量的调控,并结合压电片上的电压曲线;最后,研究了分流电路中的电阻值和电感值对压电超材料梁减振特性的影响.提出此类压电超材料的进一步改进方向.     

低频大幅隔振器设计及实验

为了突破传统隔振器刚度和承载能力之间的矛盾,需要隔振器具有高的静态刚度,低动态刚度的特性.如今的准零刚度隔振器技术可以实现低频微幅隔振,但是对于大幅振动,隔振效果并不明显甚至失效,因此突破宽幅隔振成为隔振领域亟待解决的问题.为此,我们利用多稳态折纸通过并联装配的方式,构造具有宽幅零刚度区间的折纸型隔振器,以解决传统隔振器振动抑制幅值较低的问题.本文建立了宽零刚度隔振器模型,提出宽幅零刚度的设计方法,并通过动力学分析分析了模型的隔振效果.最后搭建试验样机,验证了理论的正确性.这种设计打破了传统准零刚度隔振器单点准零的设计准则,能够在一个大幅范围内保证稳定性,同时实现零刚度,极大拓宽了隔振器的适用范围.这种设计理念能够被用在新隔振材料设计和航空、船舶等大幅低频动态环境中.     

Simulation of steady-state rolling non-pneumatic mechanical elastic wheel using finite element method

A three-dimensional (3D) nonlinear finite element (FE) model was established for the numerical investigation of a novel non-pneumatic mechanical elastic wheel (MEW) under the steady-state rolling conditions. The reliability and accuracy of this FE model of an MEW were validated through a comparison of the numerical simulation and experimentally measured data with regard to the radial stiffness, footprint and longitudinal slipping characteristics. The validated FE model was applied to study the dynamic characteristics of the MEW under various steady-state rolling conditions using steady-state transport technology in Abaqus/Standard. The contact pressure and friction stress distribution of an MEW were studied in detail. In addition, the stress states of the key components of an MEW, such as the elastic ring and hinge group, were also analysed based on the simulation results. The main innovation of this work is the application of steady-state transport technology to a parametric analysis of the steady-state rolling of a non-pneumatic tire, the simulation results of which can provide guidance for an optimization of an MEW and other non-pneumatic tire structures.     

MEMS switches controlled multi-split ring resonator as a tunable metamaterial component

Based on the multisplit-ring resonator (MSRR) with MEMS switches, a tunable metamaterial component is proposed in this paper to realize multiband applications. Numerical simulations are carried out to verify the tunable capacity of the proposed structure. The simulated results show that the resonance frequency of the metamaterial component shifts to higher frequencies when the MEMS switches are at different states, and depends strongly on the place, state and microbeam height of MEMS switches. Moreover, the large tunable range can be obtained by controlling the up state or down state of MEMS switches, while the small tunable range can be obtained by controlling microbeam height of MEMS switches. That is, such controlling ways can realize both rough and minor tunable metamaterial component. The tunable method proposed in this paper is of great practical values in designing tunable metamaterial and negative refractive index material.     

直曲增强型负泊松比超材料的力学性能与减振研究

负泊松比超材料结构作为一种新型智能材料与结构,精确计算超材料结构在大应变下的非线性力学性能对其在工程中的潜在应用具有重要意义.本文在弧形内凹负泊松比结构中加入直杆,设计了一类直杆增强型直曲耦合内凹超材料结构;利用能量法推导出了曲边内凹蜂窝结构的横/纵向等效泊松比与等效弹性模量的解析表达式,讨论结构各参数对结构等效泊松比与等效弹性模量的影响.考虑几何非线性大变形,建立了曲边内凹负泊松比结构的有限元模型,并与线性模拟结果对比,验证了解析表达式的正确性.结果表明,等效泊松比与等效弹性模量均随变形增大而变化,且变形越大差异越明显,大变形下须考虑几何非线性;利用谐响应分析计算结构的加速度级和加速度振级落差,凸显所设计超材料结构的减振性能;分析结构整体减振性能,发现其随层数增加逐渐增大;不随频率变化,在低频范围内对激励产生的响应能够起到抑制作用.因此,合理的设计超材料微结构对结构的低频振动具有很好的抑制作用,对负泊松比超材料减振结构设计具有一定的参考意义.     

限幅型非光滑吸振器模型的稳定性与周期运动研究

本文研究具有分段光滑特性的限幅型吸振器模型的稳定性与周期运动. 建立一类限幅型非光滑吸振器的动力学模型,探讨模型容许平衡点的存在性,通过Liénard-Chipart稳定性准则,分析容许平衡点的稳定性. 通过参数变换,将限幅型吸振器模型转化为具有两个切换流形的四维分段光滑系统. 通过计算系统首次积分,获得四维含参分段光滑动力系统在其未扰系统存在一族周期轨条件下的Melnikov函数. 探讨不同参数条件下系统周期轨的存在性及个数,并利用数值模拟方法给出其相图构型,验证理论结果的正确性. 研究结果表明不同的间隙参数影响系统周期轨个数及相对位置.     

动力吸振式升沉补偿系统控制性能仿真研究

针对6 000 m中国大洋多金属结核采矿系统,提出了一种动力吸振器与蓄能器复合作用的升沉补偿系统.分析说明了系统的组成及工作原理,建立了系统的数学模型;应用Matlab编程计算得到了动力吸振系统中吸振器的质量、弹簧刚度和阻尼系数;对系统进行了控制效果仿真研究.研究结果表明,在整个四级海况下,动力吸振器与蓄能器复合作用的...     

Electromagnetic System Design and Visual Simulation

An electromagnet design system is developed using Visual C++ language and OpenGL technology to visualize parametric 3D model. The system consists of primary design, optimization design, dynamic and static characteristics, and visual simulation. All empirical parameters and curves used in design process are stored in database. Through human-computer interactions, an electromagnetic system can be designed conveniently with the results and characteristics curves displayed in graphic model. Using this system can greatly shorten the process of product design, and the results satisfy technical requirements.     

工程结构多刚度尺度分析与模态理论

当前工程结构设计大多基于成熟的线性振动理论,未综合考虑非线性、多尺度等特性的影响,导致各类工程振动问题频发,减振措施失效.首先,本文以质量弹簧系统为例,对系统刚度比和质量比等关键参数开展分析,指出刚度比对系统模态具有显著影响;再者,简述大跨桥梁动力学研究现状,从系统全局动力学角度,根据非线性动力学分析和有限元分析,提出工程结构多刚度尺度概念,分析并指出多刚度尺度耦合系统的全局模态、局部模态和混合模态基于不同刚度尺度的定义.为建立桥梁全局动力学模型和理论,桥梁非线性动力学研究奠定基础.     

圆柱壳弹性波超材料分级排列的带隙拓宽方法研究

圆柱壳弹性波超材料的弯曲波带隙拓宽问题限制其满足实际工程中的宽频隔振要求,针对该问题,本文首先研究了基于局域共振机理的圆柱壳弹性波超材料弯曲波带隙特点,研究局域谐振器质量和弹簧劲度系数的关系,然后将周期分级排列的组合方式应用于圆柱壳类弹性波超材料的带隙拓宽中,并利用有限元法进行能带结构和振动传输特性计算.研究结果显示：该方法可实现弯曲波带隙的拓宽;利用组合法构建的轴向周期分级排列圆柱壳弹性波超材料可实现705-1226Hz频率范围内弯曲波的高效衰减,带隙拓宽至分别为单一谐振器的2.55倍,这表明该方法在宽频减振方面具有明显优势,应用前景广阔.     

中立型时滞反馈扭转控制系统的稳定性分析

研究了中立型时滞动力吸振器抑制扭转系统的振动问题.针对一类强迫扭转振动系统,采用动力系统的稳定性理论分析了动力吸振器与扭转振动系统的稳定性问题,以时滞为参数,分别得到了动力吸振器与扭转振动系统的稳定区域,并研究时滞变化时动力吸振器对于主振动系统振动的吸收效果,通过与时滞动力吸振器对比,得到了更大的吸振器和减振系统时滞稳定工作区域,通过数值模拟验证了结论的正确性.     

Dynamic response of double-FG porous beam system subjected to moving load

In this paper, the vibration response of the double-FG porous beam system (DFGPBS) acted by a moving load is investigated. The DFGPBS composed of two parallel FG porous beams with their material properties varying along both the axial and transverse directions, i.e., bi-directional FG material distribution, is taken into account. The porous imperfection is simulated by distributing the porosity along the beam thickness with even and uneven patterns. The governing equations of this bi-directional DFGPBS under a moving load are established with the aid of the Hamilton principle associated with the Timoshenko beam theory. The Ritz method is adopted to discrete the differential governing equations, which are solved by the Newmark-β approach. The validation of the present model is performed by comparing the numerical results with two previous works. Then, the parametric study is carried out to investigate the influences of bi-directional gradient indices, porosity volume fraction, boundary conditions, stiffness of elastic layer, and velocity of the moving load on the vibration response of bi-directional DFGPBSs excited by a moving load. It is demonstrated that the vibration response of the double-beam system subjected to moving loads can be governed by tailoring the distribution of the bi-directional FG materials. The present work can be used to guide the multi-functional design of a double-beam system under dynamic loadings.

     

Tunable magnetic metamaterial based multi-split-ring resonator (MSRR) using MEMS switch components

The split-ring resonator (SRR) arrays are commonly used to form a negative refractive index metamaterial that exhibits an effective negative permeability. However, the region of negative permeability obtained by SRR unit cell is generally limited to a narrow bandwidth at a fixed frequency. In this paper, we present a tunable metamaterial based on multi-split-ring resonators (MSRR) with MEMS switch components to realize controllable magnetic resonant frequency. Numerical simulations are performed to validate the proposed theory and tunability. The simulated results show that the MSRR structure metamaterial can realize digital tuning mode and continuous tuning mode by controlling state and height of MEMS switch components, respectively. Moreover, the simulated results are consistent with the theoretical results, which verify that the proposed theory is effective in prediction and analysis of magnetic resonant frequency. Therefore, such a tunable metamaterial can be reconfigured into a variety of states for use in different applications.     

Compact ultrathin conformal metamaterial dual‐band absorber for curved surfaces

A compact, ultrathin conformal metamaterial dual‐band absorber for curved surfaces has been presented in this article. The absorber unit cell composed of circular and split ring resonators which are connected with plus‐shaped structure. The proposed absorber unit cell is compact in size (0.22λ_o × 0.22λ_o) and as well as ultrathin thickness (0.006λ_o), where λ_o is the wavelength at 5.8 GHz. The designed absorber gives two absorption tips at 5.8 and 7.7 GHz with more than 90% absorptivity. The full width at half maximum bandwidths are 220 MHz (5.67‐5.89 GHz) and 250 MHz (7.58‐7.83 GHz). The proposed conformal absorber is sensitive to the polarization angle and has a stable absorptivity over a wide range of incident electromagnetic wave. The parametric analysis and equivalent transmission line model have been investigated. The surface current and electric field distribution also discussed for understanding the absorption mechanism. To analyze the performance of proposed absorber on the curved surfaces, it is wrapped on the different radius of cylindrical surface and measured the absorptivity. Simulated and measured results have good agreement between them.     

Dynamic behaviour of curved piles

The paper presents an analytical model and associated computer program which is developed to investigate the dynamic behaviour of curved piles embedded in a homogeneous elastic half-space and subjected to forced harmonic vertical vibration, wherein the movement of piles in the axial and lateral directions are considered. The analysis accounts for a soil-pile interaction in a simplified way and predicts the response of such foundations. Equivalent stiffness and damping parameters of pile in longitudinal and horizontal directions have been studied and typical results have been presented. A parametric study of the dimensionless amplitudes in longitudinal and lateral directions is also presented. The directions are found to depend on the frequency of vibrations, slenderness ratio and curvature of pile. Analytical results are compared with experimental ones.     

Dynamic stiffness matrix of non-symmetric thin-walled curved beam on Winkler and Pasternak type foundations

Using the technical computing program Mathematica, the dynamic stiffness matrix for the spatially coupled free vibration analysis of thin-walled curved beam with non-symmetric cross-section on two-types of elastic foundation is newly presented based on the power series method. For this, the elastic strain energy considering the axial/flexural/torsional coupled terms, the kinetic energy including the rotary inertia effect, and the energy due to the elastic foundation are introduced. Then, equations of motion are derived from the energy principle and explicit expressions for displacement parameters are derived based on power series expansions of displacement components. Finally, the exact dynamic stiffness matrix is determined using force–displacement relations. In order to demonstrate the validity and the accuracy of this study, the natural frequencies of thin-walled curved beams with mono-symmetric and non-symmetric cross-sections are evaluated and compared with the analytical solutions and finite element solutions using Hermitian curved beam elements and ABAQUS’s shell elements. In addition, some results by a parametric study are reported.     

动力吸振器对转子系统气流激振稳定性影响分析

针对气流激振引起离心压缩机转子振动失稳的问题,提出了采用动力吸振方法提高转子系统的稳定性.首先建立流体激励作用下转子 吸振系统动力学模型;其次采用Lyapunov理论研究附加吸振器后流体激励作用下转子系统的稳定性;分析了吸振器参数变化对转子系统稳定性的影响;最后采用数值方法进行验证.结果表明,动力吸振方法能够有效地提高转子系统失稳转速,吸振器固有频率和阻尼比对转子稳定性有较大的影响.