About Daqiuzhuang photovoltaic earthquake-resistant bracket
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6 FAQs about [Daqiuzhuang photovoltaic earthquake-resistant bracket]
Are passive lightweight DVAS suitable for earthquake engineering applications?
To address the above limitations of DVAs for earthquake engineering applications, new breeds of passive lightweight DVAs have recently emerged for the seismic protection of building structures, in which inertia is mostly endowed by inerter devices rather than secondary mass.
How do I determine the optimal design parameters for earthquake-resistant design?
For each building, the optimal design parameters for earthquake-resistant design will be obtained through nonlinear numerical simulations under a set of ground motion records. A database containing pairs of design inputs and optimal design parameters for earthquake-resistant design will be created.
What is earthquake-resistant design philosophy?
A traditional earthquake-resistant design philosophy is mainly focused on the “life-safety” performance level, which implies that the structure undergoes significant damage but does not collapse during a major earthquake, so that the occupants can evacuate safely.
What factors affect earthquake-resistant structural design?
Traditional earthquake-resistant structural design considers only a limited number of factors, mainly elastic structural properties, to determine key design parameters. However, these parameters are often not optimal because they do not take into account the extensive plasticity expected in building structures during earthquakes.
Can a viscous-hysteretic hybrid damping system be used for earthquake control?
Finally, in the paper by Hashizume and Takewaki, a new viscous-hysteretic hybrid (HVH) damping system is proposed for seismic control against long-period pulse-type earthquake ground motions of large amplitude. The proposed system includes a viscous damper and a hysteretic damper with a gap mechanism in parallel.
What is seismic resistant structural steel braced-frame system?
A new type of seismic resistant structural steel braced-frame system is introduced that employs controlled rocking, elastic post tensioning, and replaceable fuses to resist earthquake shaking with limited structural damage.