Predicting displacement, acceleration, and stress response during an earthquake through time history analysis.
Earthquake response analysis is a analytical method that inputs actual seismic waves into structures to evaluate their behavior during an earthquake. Our company conducts earthquake response analysis using the finite element method (FEM) for equipment supports, tanks, piping support structures, and machinery. We evaluate the time variations of displacement, acceleration, and stress that occur during an earthquake, which can be utilized for confirming structural integrity and considering seismic measures.
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basic information
<Analysis Content> Earthquake response analysis Time history response analysis Seismic wave input analysis Dynamic response evaluation Eigenvalue analysis Response acceleration evaluation Seismic countermeasure consideration <Target> Equipment frames Tank facilities Piping support structures Mechanical equipment Support frames Steel structures Various plant facilities <Evaluation Items> Response displacement Response acceleration Response stress Natural frequency Maximum response value
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Applications/Examples of results
<Uses> Verification of behavior during earthquakes Validation of seismic reinforcement effects <Examples of Achievements> Seismic response analysis of in-factory transport systems Seismic response analysis of cable racks Seismic response analysis of outdoor antennas Seismic response analysis of wooden houses (sample)
Company information
Our company supports designers who are troubled by issues such as "lightweight and strength" of products and equipment like automobiles, electronics, and machine tools, as well as "deformation and stress due to heat" and "fatigue failure due to vibration," with 15 years of product design experience and 30 years of structural analysis expertise. With the motto of providing advanced structural analysis at a low cost, we aim to be a "small company with unique technology."
