Predicting buckling phenomena in advance and evaluating structural stability.
Buckling analysis is an analytical method used to evaluate the phenomenon where members or structures subjected to compressive loads become unstable and deform. Even if there are no issues with strength, structures can become unusable due to buckling. Our company uses the finite element method (FEM) to evaluate the buckling loads and deformation modes of columns, frames, supports, and thin-walled structures, and to conduct verification of structural stability and reinforcement considerations.
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basic information
<Analysis Content> Linear Buckling Analysis Buckling Load Evaluation Buckling Mode Evaluation Structural Stability Evaluation Comparison of Reinforcement Proposals Strength Verification of Compression Members Buckling Evaluation of Thin-Walled Structures <Target> Column Members Frame Structures Tanks and Vessels Pipe Support Structures Thin Plate Structures Various Steel Structures <Evaluation Items> Buckling Load Factor Buckling Mode Displacement Occurrence Stress Distribution Safety Factor Reinforcement Effect
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Applications/Examples of results
<Applications> Design verification of compressed members Stability evaluation of frame structures Strength confirmation of thin-walled structures Buckling examination due to weight reduction Comparative evaluation of reinforcement proposals Safety confirmation of equipment support frames <Examples of Achievements> Buckling analysis of aluminum cans Buckling evaluation of column members Buckling strength evaluation during stacking of drums Buckling strength evaluation of baskets Buckling strength evaluation of gondola suspension wire support sections Buckling strength evaluation of scaffold units Buckling strength evaluation of pipe frame structures
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."
