411 research outputs found
Structural Settlement Analysis and Pre-Reinforcement Research by Considering Structure Stiffness
The movement of the ground caused by the excavation of subway tunnels and the sinking of the earth\u27s surface inevitably affect above-ground buildings, with the impact on historical and cultural buildings, which are already in disrepair, being more prominent. In existing research, the impact of the stiffness of a building itself is often neglected when assessing the influence of the displacement of the stratum caused by tunnel excavation on the building. However, as the settlement and deformation of the building are related to the structural characteristics of the building itself, the effect of the building stiffness should not be completely ignored. This study analyzed the case of the national key protected cultural relics (Red House Hotel) located near the tunnel of the Qingdao Metro (Line 3). Based on the factors affecting the stiffness of the building structure, the Peck empirical formula was modified to predict the effect on the building in the stratum. Subsequently, a three-dimensional finite element model was established and force analysis conducted. Considering the results of the finite element analysis, which determined the stress condition of the cultural relic buildings, a reinforcement design was carried out and implemented in the project
Accuracy improvement on fatigue test of megawatt wind turbine blades by adaptive fuzzy control
A single-point fatigue loading system of wind turbine blade driven by an unbalanced shaft was designed. To determine whether the vibrating performance of the loading system satisfied the fatigue test demanding, the blade was driven by different frequency under open-loop control mode in on-site flapwise fatigue test. The results showed that the more the driven frequency close to the blade’s natural frequency, the more the amplitude of the blade increase. In resonance mode, the amplitude of the blade can reach the maximum value certainly. However, the peak values of the vibration have some fluctuation, which will influence the accuracy of fatigue test. To solve the unstable problem of blade’s amplitude, the amplitude of blade’s loading point obtained by laser range meter was taken as the control index, the deviation of the amplitude and its variation tendency were taken as the input and the loading frequency as the output, then an adaptive fuzzy control system based on multistage network was built to realize blade’s constant amplitude vibrating. The on-site test showed the adaptive fuzzy control algorithm put forward in this paper could maintain the error of the peak value of vibration less than 5 mm, which satisfied the fatigue test requirement
Coupling mechanism of dual-excitation fatigue loading system of wind turbine blades
A new dual-excitation fatigue loading system of wind turbine blades was designed in this paper. However, the two excitations and blade constituted a complicated non-liner energy transferring system in which the vibration coupling effect would influence the sequent accurate control of fatigue test. To study the mechanism of the coupling system mentioned above, the electromechanical coupling mathematical model was established by simplifying the loading system rationally and the factors affecting the vibration coupling were obtained accordingly. Then the simulation model of the system was built in Matlab/Simulink environment to mainly analyze the basic influence laws of the motor speed and the initial phase difference of two excitations. Finally, a small dual-excitation fatigue loading system was established to verify the correctness of the mathematical and simulation model. It could be concluded that the results of on-site test were consistent with the results of simulation
Failure analysis of a frangible composite cover: A transient-dynamics study
A transient-dynamics model based on the approximate Riemann algorithm is proposed for the failure analysis of a
frangible composite canister cover. The frangible cover, manufactured with a traditional manual lay-up method, is
designed to conduct a simulated missile launch test using a specially developed test device. Deformation of the
cover’s centre is determined using a transient-dynamics finite element model; failure pressure for the frangible cover
is obtained based on a failure criterion and compared with simulated experimental results. Weak-zone position of the
frangible cover has a significant effect on failure pressure compared to that of deformation of the cover’s centre. With
the same structure of the weak-zone, an increase in its height can first raise and then reduce the level of failure pressure
of the frangible cover. Close agreements between the experimental and numerical results are observed
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