Vibration analysis of hard-coated composite beam considering the strain dependent characteristic of coating material 被引量：9

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作者 W.Sun Y.Liu 《Acta Mechanica Sinica》 SCIE EI CAS CSCD 2016年第4期731-742,共12页

The strain dependent characteristics of hard coatings make the vibration analysis of hard-coated composite structure become a challenging task. In this study, the modeling and the analysis method of a hard-coated comp... The strain dependent characteristics of hard coatings make the vibration analysis of hard-coated composite structure become a challenging task. In this study, the modeling and the analysis method of a hard-coated composite beam was developed considering the strain dependent characteristics of coating material. Firstly, based on analyzing the properties of hard-coating material, a high order polynomial was adopted to characterize the strain dependent characteristics of coating materials. Then, the analytical model of a hard-coated composite beam was created by the energy method. Next, using the numerical method to solve the vibration response and the resonance frequencies of the composite beam, a specific calculation flow was also proposed. Finally,a cantilever beam coated with Mg O ＋ Al2_O_3 hard coating was chosen as the study case; under different excitation levels, the resonance region responses and the resonance frequencies of the composite beam were calculated using the proposed method. The calculation results were compared with the experiment and the linear calculation, and the correctness of the created model was verified. The study shows that compared with the general linear calculation, the proposed method can still maintain an acceptable precision when the excitation level is larger. 展开更多

关键词 coated excitation modulus verified challenging characterize created considering acceptable polynomial

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Nonlinear vibration response characteristics of a dual-rotor-bearing system with squeeze film damper 被引量：6

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作者 Xinxing MA Hui MA +3 位作者 Haiqin QIN Xumin GUO Chenguang ZHAO Mingyue YU 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2021年第10期128-147,共20页

Rolling bearing and Squeeze Film Damper(SFD)are used in rotor support structures,and most researches on the nonlinear rotor-bearing system are focused on the simple rotor-bearing systems.This work emphasizes the compa... Rolling bearing and Squeeze Film Damper(SFD)are used in rotor support structures,and most researches on the nonlinear rotor-bearing system are focused on the simple rotor-bearing systems.This work emphasizes the comparative analysis of the influence of SFD on the nonlinear dynamic behavior of the dual-rotor system supported by rolling bearings.Firstly,a reduced dynamic model is established by combining the Finite Element(FE)method and the freeinterface method of component mode synthesis.The proposed model is verified by comparing the natural characteristics obtained from an FE model with those from the experiment.Then,the steady-state vibration responses of the system with or without SFD are solved by the numerical integration method.The influences of the ball bearing clearance,unbalance,centralizing spring stiffness and oil film clearance of SFD on the nonlinear steady-state vibration responses of the dual-rotor system are analyzed.Results show that SFD can effectively suppress the amplitude jump of the dual rotor system sustaining two rotors unbalance excitations.As the ball bearing clearance or unbalance increases,the amplitude jump phenomenon becomes more obvious,the resonance hysteresis phenomenon strengthens or weakens,the resonant peaks shift to the left or the right,respectively.SFD with unreasonable parameters will aggravate the system vibration,the smaller the oil film clearance,the better the damping performance of the SFD,the larger the centralizing spring stiffness is,the larger resonance amplitudes are. 展开更多

关键词 DUAL-ROTOR rolling bearing squeeze film damper finite element method vibration response

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Ultra‑High Sensitivity Anisotropic Piezoelectric Sensors for Structural Health Monitoring and Robotic Perception

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作者 Hao Yin Yanting Li +4 位作者 Zhiying Tian Qichao Li Chenhui Jiang Enfu Liang Yiping Guo 《Nano-Micro Letters》 SCIE EI CAS 2025年第2期432-446,共15页

Monitoring minuscule mechanical signals,both in magnitude and direction,is imperative in many application scenarios,e.g.,structural health monitoring and robotic sensing systems.However,the piezoelectric sensor strugg... Monitoring minuscule mechanical signals,both in magnitude and direction,is imperative in many application scenarios,e.g.,structural health monitoring and robotic sensing systems.However,the piezoelectric sensor struggles to satisfy the requirements for directional recognition due to the limited piezoelectric coefficient matrix,and achieving sensitivity for detecting micrometer-scale deformations is also challenging.Herein,we develop a vector sensor composed of lead zirconate titanate-electronic grade glass fiber composite filaments with oriented arrangement,capable of detecting minute anisotropic deformations.The as-prepared vector sensor can identify the deformation directions even when subjected to an unprecedented nominal strain of 0.06%,thereby enabling its utility in accurately discerning the 5μm-height wrinkles in thin films and in monitoring human pulse waves.The ultra-high sensitivity is attributed to the formation of porous ferroelectret and the efficient load transfer efficiency of continuous lead zirconate titanate phase.Additionally,when integrated with machine learning techniques,the sensor’s capability to recognize multi-signals enables it to differentiate between 10 types of fine textures with 100%accuracy.The structural design in piezoelectric devices enables a more comprehensive perception of mechanical stimuli,offering a novel perspective for enhancing recognition accuracy. 展开更多

关键词 Flexible piezoelectric filaments ANISOTROPIC Ultra-high sensitivity Structural health detection Texture recognition

基于改进分形方法的齿面磨损故障直齿轮啮合特性分析

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作者 刘子濛 常成 +5 位作者 胡昊东 马辉 张顺豪 赵松涛 张晓旭 彭志科 《Journal of Central South University》 SCIE EI CAS CSCD 2024年第5期1619-1636,共18页

考虑实际的轮齿表面微观形貌,建立了轮齿间相互作用的三维分形接触模型。结合轮齿承载接触分析方法,考虑轮齿间摩擦力的影响,建立了直齿轮副的时变啮合刚度模型,并通过有限元方法进行了验证。结合Archard磨损模型,考虑齿面粗糙度和摩擦... 考虑实际的轮齿表面微观形貌,建立了轮齿间相互作用的三维分形接触模型。结合轮齿承载接触分析方法,考虑轮齿间摩擦力的影响,建立了直齿轮副的时变啮合刚度模型,并通过有限元方法进行了验证。结合Archard磨损模型,考虑齿面粗糙度和摩擦力的影响,分析了齿面磨损故障状态下直齿轮副的啮合特性和磨损深度,同时分析了摩擦力和分形参数对时变啮合刚度和磨损深度的影响。摩擦力导致节线处的时变啮合刚度发生突变。当直齿轮副处于双齿啮合时,摩擦因数的增加和分形维数的降低导致磨损深度的增加和时变啮合刚度的降低。时变啮合刚度随分形维数的变化呈线性变化。分形维数对时变啮合刚度和磨损深度的影响随着磨损周期的增加更为明显,超过了摩擦因数对其的影响。 展开更多

关键词 直齿轮 啮合特性 分型接触 齿面摩擦力 磨损故障

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基于动力学的螺旋桨影响下的船舶推进系统声振特性研究

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作者 徐江海 薛林 +3 位作者 邹冬林 焦春晓 塔娜 饶柱石 《Acta Mechanica Sinica》 SCIE EI CAS CSCD 2024年第2期214-236,共23页

船舶推进系统稳定性受到施加在螺旋桨上的负载及其本身的惯性效应的综合影响.论文聚焦非对称动力输入下的双缸推进系统,旨在通过理论建模、数值仿真和实验验证探究推进系统的动力学行为及其影响因素.首先,考虑传动系统的啮合刚度、齿面... 船舶推进系统稳定性受到施加在螺旋桨上的负载及其本身的惯性效应的综合影响.论文聚焦非对称动力输入下的双缸推进系统,旨在通过理论建模、数值仿真和实验验证探究推进系统的动力学行为及其影响因素.首先,考虑传动系统的啮合刚度、齿面摩擦、齿侧间隙、非对称激励等时变、非线性因素,建立推进系统非线性动力学模型.其次,采用数值方法研究桨端负载及其惯性效应对于推进系统稳定性和振动响应的影响,揭示多参数影响下的系统复杂的动力学行为.最后,基于理论模型,构建并联推进系统综合实验平台,进一步研究了负载和惯性效应对于推进系统声振特性的影响.研究结果对于从动力学角度进行系统动力参数的设计和螺旋桨的结构优化具有积极意义. 展开更多

关键词 船舶推进系统 惯性效应 综合实验平台 传动系统 声振特性 非线性动力学模型 动力参数 齿侧间隙

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Power fluctuation and power loss of wind turbines due to wind shear and tower shadow 被引量：4

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作者 Binrong WEN Sha WEI +3 位作者 Kexiang WEI Wenxian YANG Zhike PENG Fulei CHU 《Frontiers of Mechanical Engineering》 SCIE CSCD 2017年第3期321-332,共12页

The magnitude and stability of power output are two key indices of wind turbines. This study investigates the effects of wind shear and tower shadow on power output in terms of power fluctuation and power loss to esti... The magnitude and stability of power output are two key indices of wind turbines. This study investigates the effects of wind shear and tower shadow on power output in terms of power fluctuation and power loss to estimate the capacity and quality of the power generated by a wind turbine. First, wind speed models, particularly the wind shear model and the tower shadow model, are described in detail. The widely accepted tower shadow model is modified in view of the cone-shaped towers of modem large-scale wind turbines. Power fluctuation and power loss due to wind shear and tower shadow are analyzed by performing theoretical calculations and case analysis within the framework of a modified version of blade element momentum theory. Results indicate that power fluctuation is mainly caused by tower shadow, whereas power loss is primarily induced by wind shear. Under steady wind conditions, power loss can be divided into wind farm loss and rotor loss. Wind farm loss is constant at 3a（3a- 1）R^2/（8H^2）. By contrast, rotor loss is strongly influenced by the wind turbine control strategies and wind speed. That is, when the wind speed is measured in a region where a variable-speed controller works, the rotor loss stabilizes around zero, but when the wind speed is measured in a region where the blade pitch controller works, the rotor loss increases as the wind speed intensifies. The results of this study can serve as a reference for accurate power estimation and strategy development to mitigate the fluctuations in aerodynamic loads and power output due to wind shear and tower shadow. 展开更多

关键词 wind turbine wind shear tower shadow power fluctuation power loss

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弹流润滑下考虑切片耦合的直齿轮啮合刚度的迭代模型 被引量：2

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作者 黄文康 马辉 +4 位作者 赵志芳 王鹏飞 彭志科 张晓旭 赵松涛 《Journal of Central South University》 SCIE EI CAS CSCD 2023年第10期3414-3434,共21页

弹流润滑在减少齿轮表面的变形和摩擦方面起着关键作用,可提高齿轮传动的稳定性和可靠性。本文提出了一个模型来研究直齿轮中弹流润滑与时变啮合刚度之间的复杂关系,旨在求解弹流润滑下的直齿轮时变啮合刚度。本模型考虑了弹流润滑、切... 弹流润滑在减少齿轮表面的变形和摩擦方面起着关键作用,可提高齿轮传动的稳定性和可靠性。本文提出了一个模型来研究直齿轮中弹流润滑与时变啮合刚度之间的复杂关系,旨在求解弹流润滑下的直齿轮时变啮合刚度。本模型考虑了弹流润滑、切片耦合、延长啮合、齿轮体柔性耦合和修正的轮齿刚度的影响。为提高准确性,通过去除能量的重复计算来修正轮齿刚度。此外,还推导了切片耦合与变形协调方程之间的迭代关系。提出的模型通过MASTA软件和参考文献进行验证。分析了弹流润滑和切片耦合对直齿轮啮合特性的影响。研究结果显示,考虑切片耦合后,带有鼓向修形的直齿轮的时变啮合刚度显著增大,并且导致边缘的集中载荷转移到齿面的中间部位。 展开更多

关键词 弹流润滑 时变啮合刚度 切片耦合 变形协调方程

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ANALYSIS AND SIMULATION ON THE MECHANISM OF A NOVEL DUAL-WAVE SHOCK TEST MACHINE 被引量：3

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作者 WANG Gongxian ZHANG Zhiyi +1 位作者 CHU Deying SHEN Rongying 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2008年第1期94-100,共7页

For qualifying the anti-shock performance of shipboard equipments and simulating actual underwater explosion environments, a novel dual-wave shock test machine is proposed to increase testing capability of shock test ... For qualifying the anti-shock performance of shipboard equipments and simulating actual underwater explosion environments, a novel dual-wave shock test machine is proposed to increase testing capability of shock test machines as well as to meet certain shock testing specification. The machine can generate a double-pulse acceleration shock for test articles according to specification defined in BV043/85. On the basis of the impact theory, a nonlinear dynamic model of the hydraulically-actuated test machine is established with thorough analysis on its mechanism which involves conversion of gas potential energy and dissipation of kinetic energy. Simulation results have demonstrated that the machine can produce a double-pulse acceleration shock in the time domain or a desired shock response spectrum in the frequency domain, which sets a theoretical base for the construction of the proposed machine. 展开更多

关键词 Shock test machine Underwater explosion Velocity generator Pulse generator

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Study on the dynamic behavior of herringbone gear structure of marine propulsion system powered by double-cylinder turbines 被引量：2

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作者 XU JiangHai JIAO ChunXiao +2 位作者 ZOU DongLin TA Na RAO ZhuShi 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2022年第3期611-630,共20页

Propulsion systems powered by double-cylinder turbines(DCT)are widely used in large-scale ships.However,the nonlinear instability leads to hidden dangers associated with the safe operation,and there is a lack of theor... Propulsion systems powered by double-cylinder turbines(DCT)are widely used in large-scale ships.However,the nonlinear instability leads to hidden dangers associated with the safe operation,and there is a lack of theoretical and systematic research on this problem.Based on the gear transmission principle and non-Newtonian thermal elastohydrodynamic lubrication(EHL)theory,a torsional model of a two-stage herringbone system forced by unsymmetrical load is established.The nonlinear and time-varying factors of meshing friction,meshing stiffness,and gear pair backlash are included in the model,and multiple meshing states,including single-and double-sided impact are studied.New nonlinear phenomena of the dynamic system are explored and the effects of the unsymmetrical load on the system stability are quantified.The results indicate that the stability of the gear system is improved,and that the back-sided impact gradually disappears with the increases of load ratio between the two inputs and the input load value.Furthermore,it is found that the gear pairs on the low-load side experience more severe vibration than those on the high-load side.Finally,the stability of the gear pairs decreases along the power transmission path of the multistage gear system.The results of this research will be useful when making predictions of the stability of such systems and in the optimization of the load parameters. 展开更多

关键词 DCT propulsion system DI-SO herringbone gears unsymmetrical load nonlinear instability mechanism

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Flow induced structural vibration and sound radiation of a hydrofoil with a cavity 被引量：2

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作者 Jin Tian Guo-qing Yuan Hong-xing Hua 《Journal of Hydrodynamics》 SCIE EI CSCD 2018年第6期1022-1037,共16页

The structural vibration and the sound radiation induced by the flow over a cavity on a hydrofoil are investigated experimentally and numerically. The large eddy simulation(LES) is adopted to calculate the flow field ... The structural vibration and the sound radiation induced by the flow over a cavity on a hydrofoil are investigated experimentally and numerically. The large eddy simulation(LES) is adopted to calculate the flow field and the pressure fluctuation characteristics. A coupled finite element method/boundary element method approach is used to analyze the hydrofoil vibration and the structure-borne noise. The flow noise is calculated using an acoustic analogy by considering the surface pressure fluctuations as the dipole sources. A hollow hydrofoil with an orifice supported by four cylinder rods is constructed for the experiments. Modal tests are performed to obtain the natural frequencies of the hydrofoil in air and water. The vibro-acoustic experiments are carried out in the water tunnel at various free stream velocities with the orifice open and closed. A pressure transducer is used to measure the pressure fluctuations behind the downstream edge of the orifice. The triaxial accelerometers mounted on the side walls are used to measure the vibrational response of the hydrofoil. Furthermore, a hydrophone located in a box, filled with water is used to measure the sound radiation. The structure-borne noise and the flow noise are identified by their frequency properties. Reasonable agreements are observed between the numerical predictions and the experimental measurements. 展开更多

关键词 VIBRATION structure-borne noise flow noise HYDROFOIL open cavity large eddy simulation(LES)

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An insight into the pass effect of the planet gear from an elastodynamics perspective 被引量：1

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作者 HUANGFU YiFan DONG XingJian +2 位作者 CHEN KangKang LI ZhanWei PENG ZhiKe 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2023年第8期2415-2431,共17页

Distinguished from parallel-axis gear systems,the revolution of the carrier brings out the pass effect of the planet gear.Compared with the phenomenological descriptions in conventional studies,this paper aims to prov... Distinguished from parallel-axis gear systems,the revolution of the carrier brings out the pass effect of the planet gear.Compared with the phenomenological descriptions in conventional studies,this paper aims to provide more abundant physical information and the elastodynamics mechanism of the pass effect of the planet gear.To this end,a continuous-discrete model of helical planetary gears is proposed.Considering both the in-plane and out-of-plane vibration,a semi-analytical model is established to simulate the elastic ring gear.The elastic and the lumped parameter submodels are synthesized using the moving elastic coupling boundary.The simulated modal and dynamic characteristics are verified using a planetary gear test rig.Based on the proposed dynamic model,the pass effect of the planet gear,the effects of bolt constraint,and the out-of-plane vibration of helical planetary gears are investigated.It is revealed that the“realistic rotation”strategy adopted in the proposed dynamic model can better reflect the physical essence of the pass effect of the planet gear compared with the“pseudo rotation”strategy utilized in the traditional model. 展开更多

关键词 planetary gear ELASTODYNAMICS pass effect semi-analytical model dynamic characteristics

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Study of Intelligent Approaches to Identify Impact of Environmental Temperature on Ultrasonic GWs Based SHM:A Review

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作者 Saqlain Abbas Zulkarnain Abbas +1 位作者 Xiaotong Tu Yanping Zhu 《Journal on Artificial Intelligence》 2023年第1期43-56,共14页

Structural health monitoring(SHM)is considered an effective approach to analyze the efficient working of several mechanical components.For this purpose,ultrasonic guided waves can cover long-distance and assess large ... Structural health monitoring(SHM)is considered an effective approach to analyze the efficient working of several mechanical components.For this purpose,ultrasonic guided waves can cover long-distance and assess large infrastructures in just a single test using a small number of transducers.However,the working of the SHM mechanism can be affected by some sources of variations(i.e.,environmental).To improve the final results of ultrasonic guided wave inspections,it is necessary to highlight and attenuate these environmental variations.The loading parameters,temperature and humidity have been recognized as the core environmental sources of variations that affect the SHM sensing mechanism.Environmental temperature has the most significant influence on SHM results.There is still a need for extensive research to develop such a damage inspection approach that should be insensitive to environmental temperature variations.In this framework,the current research study will not only illuminate the effect of environmental temperature through different intelligent approaches but also suggest the standard mechanism to attenuate it in actual ultrasonic guided wave based SHM.Hence,the work presented in this article addresses one of the open research challenges that are the identification of the effect of environmental and operating conditions in practical applications of ultrasonic guided waves and impedance-based SHM. 展开更多

关键词 Structural health monitoring ultrasonic guided waves environmental and operating conditions thermal sensitivity

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Cyclostationary Modeling of Surface Electromyography Signal During Gait Cycles and Its Application for Cerebral Palsy Diagnosis 被引量：1

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作者 YU Liang YAN Li +1 位作者 CHEN Mengjie DONG Liangchao 《Journal of Shanghai Jiaotong university(Science)》 EI 2018年第S1期56-61,共6页

Cerebral palsy(CP) is a group of permanent movement disorders that appear in early childhood.The electromyography(EMG) signal analysis and the gait analysis are two most commonly used methods in the clinic. In this pa... Cerebral palsy(CP) is a group of permanent movement disorders that appear in early childhood.The electromyography(EMG) signal analysis and the gait analysis are two most commonly used methods in the clinic. In this paper, a cyclostationary model of the EMG signal is proposed. The model can combine the aforementioned two methods. The EMG signal acquired during the gait cycles is assumed to be cyclostationary due to the physiological characteristics of the EMG signal production. Then, the spectral correlation density is used to analyze the cyclic frequency(corresponding to the gait cycles) and spectral frequency(the frequency of EMG signal) in a waterfall representation of the two kinds of frequencies. The experiments show that the asymptomatic(normal) subjects and symptomatic subjects(with CP) can be distinguished from the spectral correlation density in a range of cyclic frequencies. 展开更多

关键词 electromyography(EMG) signal gait cycle spectral correlation density cyclostationary modeling cerebral palsy(CP) diagnosis

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Numerical Modeling of Dual-Pulse Shock Test Machine for Simulating Underwater Explosion Shock Loads on Warship Equipments 被引量：1

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作者 张志谊 王贡献 汪玉 《Journal of Shanghai Jiaotong university(Science)》 EI 2009年第2期233-240,共8页

In order to qualify shock resistance performance of shipboard equipments and simulate real underwater explosion environment,a novel dual-pulse shock test machine is proposed.The new machine will increase testing capab... In order to qualify shock resistance performance of shipboard equipments and simulate real underwater explosion environment,a novel dual-pulse shock test machine is proposed.The new machine will increase testing capability and meet special shock testing requirement.Two key parts of the machine,the velocity generator and the shock pulse regulator,play an important role in producing the positive acceleration pulse and the succeeding negative acceleration pulse,respectively.The generated dual-pulse shock for test articles is in conformity with an anti-shock test specification.Based on the impact theory,a nonlinear dynamic model of the hydraulically-actuated test machine is established with thorough analysis on its mechanism that involves conversion of gas potential energy and dissipation of kinetic energy.Simulation results have demonstrated that the proposed machine is able to produce a double-pulse acceleration shock in the time domain or a desired shock response spectrum in the frequency domain,which sets up a base for the construction of the machine. 展开更多

关键词 shock test machine underwater explosion （UNDEX） velocity generator shock pulse regulator

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A novel methodology for complex part motion planning 被引量：1

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作者 Xia Yanchun（夏妍春） Yin Yuehong Chen Zhaoneng 《High Technology Letters》 EI CAS 2005年第3期245-249,共5页

A motion planning strategy. tor the assembly task of inserting a dissymmetrical T-snaped putt into a C-shaped slot is presented. The coarse motion planning strategy is expounded by geometric reasoning. A medial axis d... A motion planning strategy. tor the assembly task of inserting a dissymmetrical T-snaped putt into a C-shaped slot is presented. The coarse motion planning strategy is expounded by geometric reasoning. A medial axis diagram decreases the unnecessary configuration states and optimizes the planning strategy. Due to the uncertainties, force sensing and force control is indispensable for motion planning. Combining the coarse motion planning strategy with fine motion planning strategy, the task of assembling a dissymmetrical T-shaped part can be completed successfully. 展开更多

关键词 geometric reasoning medial axis diagram force control transition diagram

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Experimental Investigation of Performance Characteristics of PZT-5A with Application to Fault Diagnosis

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作者 Saqlain Abbas Zulkarnain Abbas +2 位作者 Yanping Zhu Waqas Tariq Toor Xiaotong Tu 《Structural Durability & Health Monitoring》 EI 2022年第4期307-321,共15页

In the previous couple of decades,techniques to reap energy and empower low voltage electronic devices have received outstanding attention.Most of the methods based on the piezoelectric effect to harvest the energy fr... In the previous couple of decades,techniques to reap energy and empower low voltage electronic devices have received outstanding attention.Most of the methods based on the piezoelectric effect to harvest the energy from ambient vibrations have been revolutionized.There’s an absence of experiment-based investigation which incorporates the microstructure analysis and crystal morphology of those energy harvest home materials.Moreover,the impact of variable mechanical and thermal load conditions has seldom been studied within the previous literature to utilize the effectiveness of those materials in several practical applications like structural health monitoring(SHM),etc.In the proposed research work,scanning electron microscope(SEM)and energy dispersive x-ray(EDX)analysis are performed to examine the inside crystal morphology of PZT-5A and ensure the quality of the piezoelectric ceramic.Further,the performance of piezoelectric vibration-based energy harvester has been investigated in the second phase of current research work under the variable mechanical and thermal load conditions through a regular series of experiments.It’s been found that the output voltage of piezoelectric sensors will increase by increasing the applied load,whereas a decreasing trend in output voltage is noticed by increasing the applied temperature,resistance and frequency.Within the third part,a measuring setup is developed in the laboratory to further investigate the effectiveness of PZT-5A in practical applications such as electromechanical impedance(EMI)based structural health monitoring under the controlled heating environment.Therefore,this analysis not only evaluates the performance of PZT sensors under the variable operating conditions but also encourages developing a temperature compensation approach in EMI-based SHM. 展开更多

关键词 Piezoelectric energy harvester crystal morphology scanning electron microscope structural health monitoring electromechanical impedance

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Experimental Study of Effect of Temperature Variations on the Impedance Signature of PZT Sensors for Fatigue Crack Detection

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作者 Saqlain Abbas Fucai Li +3 位作者 Zulkarnain Abbas Taufeeq Ur Rehman Abbasi Xiaotong Tu Riffat Asim Pasha 《Sound & Vibration》 EI 2021年第1期1-18,共18页

Structural health monitoring(SHM)is recognized as an efficient tool to interpret the reliability of a wide variety of infrastructures.To identify the structural abnormality by utilizing the electromechanical coupling ... Structural health monitoring(SHM)is recognized as an efficient tool to interpret the reliability of a wide variety of infrastructures.To identify the structural abnormality by utilizing the electromechanical coupling property of piezoelectric transducers,the electromechanical impedance(EMI)approach is preferred.However,in real-time SHM applications,the monitored structure is exposed to several varying environmental and operating conditions(EOCs).The previous study has recognized the temperature variations as one of the serious EOCs that affect the optimal performance of the damage inspection process.In this framework,an experimental setup is developed in current research to identify the presence of fatigue crack in stainless steel(304)beam using EMI approach and estimate the effect of temperature variations on the electrical impedance of the piezoelectric sensors.A regular series of experiments are executed in a controlled temperature environment(25°C–160°C)using 202 V1 Constant Temperature Drying Oven Chamber(Q/TBXR20-2005).It has been observed that the dielectric constantð"33 TÞwhich is recognized as the temperature-dependent constant of PZT sensor has sufficiently influenced the electrical impedance signature.Moreover,the effective frequency shift(EFS)approach is optimized in term of significant temperature compensation for the current impedance signature of PZT sensor relative to the reference signature at the extended frequency bandwidth of the developed measurement system with better outcomes as compared to the previous literature work.Hence,the current study also deals efficiently with the critical issue of the width of the frequency band for temperature compensation based on the frequency shift in SHM.The results of the experimental study demonstrate that the proposed methodology is qualified for the damage inspection in real-time monitoring applications under the temperature variations.It is capable to exclude one of the major reasons of false fault diagnosis by compensating the consequence 展开更多

关键词 Electromechanical impedance structural health monitoring piezoelectric sensors fatigue crack temperature compensation

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A Study on Technological Dynamics in Structural Health Monitoring Using Intelligent Fault Diagnosis Techniques:A Patent-Based Approach

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作者 Saqlain Abbas Zulkarnain Abbas +1 位作者 Xiaotong Tu Yanping Zhu 《Journal on Artificial Intelligence》 2021年第3期97-113,共17页

The performance and reliability of structural components are greatly influenced by the presence of any abnormality in them.To this purpose,structural health monitoring(SHM)is recognized as a necessary tool to ensure t... The performance and reliability of structural components are greatly influenced by the presence of any abnormality in them.To this purpose,structural health monitoring(SHM)is recognized as a necessary tool to ensure the safety precautions and efficiency of both mechanical and civil infrastructures.Till now,most of the previous work has emphasized the functioning of several SHM techniques and systematic changes in SHM execution.However,there exist insufficient data in the literature regarding the patent-based technological developments in the SHM research domain which might be a useful source of detailed information for worldwide research institutes.To address this research gap,a method based on the Co-Operative Patent Classification(CPC)codes is proposed in the current study.The proposed method includes the patent analysis of SHM in terms of its global publication trend and technology-based applications.This analysis is performed using patent database search tools,namely,IncoPat and Espacenet.The period ranging from 2005 to 2019 is selected to retrieve the required patent documents.A new approach termed as Patents’value is utilized to investigate the technological impact of a patent in the form of forward citations,technical stability,and scope of protection.The identification of emerging SHM techniques and forecasting of vacant technology is also part of current research work.The research results have revealed the increasing trend in the number of published patents each year related to various SHM technologies.In this regard,China,the United States,and South Korea are notified as to the major depositor countries,respectively.Hence,mapping of patent data in this research is an effort to illustrate the effectiveness of the proposed method to demonstrate the development trends and dynamic inventions over the time in SHM research domain to achieve the optimal damage inspections of various mechanical components. 展开更多

关键词 Structural health monitoring mechanical components patent analysis technological dynamics vacant technology forecast publication trend analysis

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Theory of non-Hermitian topological whispering gallery

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作者 RenéPernas-Salomón Li-Yang Zheng +4 位作者 Zhiwang Zhang Penglin Gao Xiaojun Liu Ying Cheng Johan Christensen 《npj Computational Materials》 SCIE EI CSCD 2022年第1期2308-2314,共7页

Topological insulators have taken the condensed matter physics scenery by storm and captivated the interest among scientists and materials engineers alike.Surprisingly,this arena which was initially established and pr... Topological insulators have taken the condensed matter physics scenery by storm and captivated the interest among scientists and materials engineers alike.Surprisingly,this arena which was initially established and profoundly studied in electronic systems and crystals,has sparked a drive among classical physicists to pursue a wave-based analogy for sound,light and vibrations.In the latest efforts combining valley-contrasting topological sound with non-Hermitian ingredients,B.Hu et al.[Nature 597,655(2021)]employed thermoacoustic coupling in sonic lattices whose elementary building blocks are coated with electrically biased carbon nanotube films.In this contribution,we take a theoretical and numerical route towards understanding the complex acoustic interplay between geometry and added acoustic gain as inspired by the aforesaid publication.Besides complex bulk and edge states predictions and computations of mode-split resonances using whispering gallery configurations,we also predict an acoustic amplitude saturation in dependence on the activated coated elements.We foresee that our computational advances may assist future efforts in exploring thermoacoustic topological properties. 展开更多

关键词 PROPERTIES TOPOLOGICAL ANALOGY

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A Semi-Discretizing Method Based Efficient Model for Fluidelastic Instability Threshold Prediction of Tube Bundles

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作者 Yuerong Wang Jianping Jing +1 位作者 Changmin Chen Sheng Xiong 《Computer Modeling in Engineering & Sciences》 SCIE EI 2019年第10期1-22,共22页

Fluidelastic instability is destructive in tube bundles subjected to cross flow.Flow channel model proposed by Leaver and Weaver is well used for modeling this problem.However,as the tube motion is supposed to be harm... Fluidelastic instability is destructive in tube bundles subjected to cross flow.Flow channel model proposed by Leaver and Weaver is well used for modeling this problem.However,as the tube motion is supposed to be harmonic,it may not simulate the general dynamic behaviors of tubes.To improve this,a model with arbitrary tube motion is proposed by Hassan and Hayder.While,due to involving in the time delay term,the stability problem cannot be solved by the eigenvalue scheme,and time domain responses of the tube have to be obtained to assess the instability threshold.To overcome this weakness,a new approach based on semi-discretizing method(SDM)is proposed in this study to make the instability threshold be predicted by eigenvalues directly.The motion equation of tube is built with considering the arbitrary tube motion and the time delay between fluid flow and tube vibration.A time delay integral term is derived and the SDM is employed to construct a transfer matrix,which transforms the infinite dimensional eigenvalue problem into a finite one.Hence the stability problem become solvable accordingly.With the proposed method,the instability threshold of a typical square tube array model is predicted,and the influences of system parameters on stability are also discussed.With comparing with prior works,it shows significant efficiency improvement in prediction of the instability threshold of tube bundles. 展开更多

关键词 Fluidelastic INSTABILITY VIBRATION EQUATION time DELAY semi-discretizing method fluid-induced VIBRATION

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