[Case Study] Buckling Analysis of Thin-Walled Frame Structures
We performed advanced nonlinear analysis using NX Nastran for the frame structure's elasto-plastic buckling problem.
**Case Overview** ■Product Name: Simcenter Femap with Nastran ■Analysis: Nonlinear Static Analysis ■Industry: Mechanical Components Buckling is a deformation that exhibits very strong nonlinear characteristics. When buckling occurs, the strength and stiffness of the structure decrease sharply, leading to instability. Thin-walled frame structures, like the one shown in the right diagram, have many failure modes, and buckling can cause extremely large deflections in the frame. Since part of the model may transition from an elastic state to a plastic state and back from plastic to elastic, the analysis becomes quite complex. This analysis example presents the nonlinear analysis results for the elasto-plastic buckling problem of frame structures. □ For other features and details, please refer to the catalog.
basic information
We will introduce a case study of hull strength analysis using the finite element method with NX Nastran.
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Model number/Brand name
Simcenter Femap with Nastran
Applications/Examples of results
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At N.S.T, we provide a variety of support to comprehensively assist our customers in better manufacturing, from offering diverse analysis tools and their utilization methods to contract analysis. Our company provides truly usable numerical analysis tools and seamlessly supports the introduction and operation of these tools by leveraging the know-how gained through our extensive experience in the field of numerical analysis.
































