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Dynamic behavior of bridge-erecting machine subjected to moving mass suspended by wire ropes 被引量:3
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作者 Shaopu YANG Xueqian FANG +1 位作者 Jianchao ZHANG Dujuan WANG 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI CSCD 2016年第6期741-748,共8页
The dynamic behavior of a bridge-erecting machine, carrying a moving mass suspended by a wire rope, is investigated. The bridge-erecting machine is modelled by a simply supported uniform beam, and a massless equivale... The dynamic behavior of a bridge-erecting machine, carrying a moving mass suspended by a wire rope, is investigated. The bridge-erecting machine is modelled by a simply supported uniform beam, and a massless equivalent "spring-damper" system with an effective spring constant and an effective damping coefficient is used to model the moving mass suspended by the wire rope. The suddenly applied load is represented by a unitary Dirac Delta function. With the expansion method, a simple closed-form solution for the equation of motion with the replaced spring-damper-mass system is formulated. The characters of the rope are included in the derivation of the differential equation of motion for the system. The numerical examples show that the effects of the damping coefficient and the spring constant of the rope on the deflection have significant variations with the loading frequency. The effects of the damping coefficient and the spring constant under different beam lengths are also examined. The obtained results validate the presented approach, and provide significant references in the design process of bridgeerecting machines. 展开更多
关键词 bridge-erecting machine wire rope dynamic behavior equivalent spring-damper" system
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Shape control of spacecraft formation using a virtual spring-damper mesh 被引量:3
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作者 Chen Qifeng Meng Yunhe Xing Jianjun 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2016年第6期1730-1739,共10页
This paper derives a distance-based formation control method to maintain the desired formation shape for spacecraft in a gravitational potential field. The method is an analogy of a virtual spring-damper mesh. Spacecr... This paper derives a distance-based formation control method to maintain the desired formation shape for spacecraft in a gravitational potential field. The method is an analogy of a virtual spring-damper mesh. Spacecraft are connected virtually by spring-damper pairs. Convergence analysis is performed using the energy method. Approximate expressions for the distance errors and control accelerations at steady state are derived by using algebraic graph representations and results of graph rigidity. Analytical results indicate that if the underlying graph of the mesh is rigid, the convergence to a static shape is assured, and higher formation control precision can be achieved by increasing the elastic coefficient without increasing the control accelerations. A numerical example of spacecraft formation in low Earth orbit confirms the theoretical analysis and shows that the desired formation shape can be well achieved using the presented method, whereas the orientation of the formation can be kept pointing to the center of the Earth by the gravity gradient. The method is decentralized, and uses only relative measurement information. Constructing a distributed virtual structure in space can be the general application area. The proposed method can serve as an active shape control law for the spacecraft formations using propellantless internal forces. 展开更多
关键词 Formation shape control Graph rigidity Internal forces PD control Spacecraft formation flying Spacecraft guidance and control spring-damper mesh
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Dynamic modeling of hydrostatic guideway considering compressibility and inertia effect 被引量:6
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作者 Yikang DU Kuanmin MAO +3 位作者 Yaming ZHU Fengyun WANG Xiaobo MAO Bin LI 《Frontiers of Mechanical Engineering》 SCIE CSCD 2015年第1期78-88,共11页
Hydrostatic guideways are used as an alter- native to contact bearings due to high stiffness and high damping in heavy machine tools. To improve the dynamic characteristic of bearing structure, the dynamic modeling of... Hydrostatic guideways are used as an alter- native to contact bearings due to high stiffness and high damping in heavy machine tools. To improve the dynamic characteristic of bearing structure, the dynamic modeling of the hydrostatic guidway should be accurately known. This paper presents a "mass-spring-Maxwell" model considering the effects of inertia, squeeze, compressibility and static bearing. To determine the dynamic model coefficients, numerical simulation of different cases between displacement and dynamic force of oil film are performed with fluent code. Simulation results show that hydrostatic guidway can be taken as a linear system when it is subjected to a small oscillation amplitude. Based on a dynamic model and numerical simulation, every dynamic model's parameters are calculated by the Levenberg- Marquardt algorithm. Identification results show that "mass-spring-damper" model is the most appropriate dynamic model of the hydrostatic guidway. This paper provides a reference and preparation for the analysis of the dynamic model of the similar hydrostatic bearings. 展开更多
关键词 hydrostaticdynamic mesh technique spring-damper modelguidway dynamicLevenberg-Marquardt model mass-
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Study of an artificial boundary condition based on the damping-solvent extraction method
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作者 Qiang XU Jianyun CHEN +1 位作者 Jing LI Mingming WANG 《Frontiers of Structural and Civil Engineering》 SCIE EI 2012年第3期281-287,共7页
A new artificial boundary condition for time domain analysis of a structure-unlimited-foundation system was proposed.The boundary condition was based on the damping-solvent extraction method.The principle of the dampi... A new artificial boundary condition for time domain analysis of a structure-unlimited-foundation system was proposed.The boundary condition was based on the damping-solvent extraction method.The principle of the damping-solvent extraction method was described.An artificial boundary condition was then established by setting two spring-damper systems and one artificial damping limited region.A test example was developed to verify that the proposed boundary condition and model had high precision.Compared with the damping-solvent extraction method,this boundary condition is easier to be applied to finite element method(FEM)-based numerical calculations. 展开更多
关键词 damping-solvent extraction method structure-unlimited-foundation system spring-damper system artificial damping limited region finite element method
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