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詳細なシェル FEA

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  4. チュートリアル 3. メンバーシェルFEA

チュートリアル 3. メンバーシェルFEA

例の概要

この例では, we’ll demonstrate the analysis of a steel frame structure consisting of two columns and a tapered beam between them. Both the columns and the beam include stiffeners. さらに, the beam’s web features circular openings. The columns have a plate thickness of 16 んん, while the beam plates are 12 mm thick. The beam is subjected to three vertical forces, totaling 5000 kN.

The upcoming analysis will encompass both geometric and material nonlinearity. It also offers real-time tracking of the load-displacement curve, enabling an in-depth investigation of the member’s capacity while optimizing computational time. The results will provide insights into the member’s capacity, its deformed state, and its failure status.

ステップ 1. Model Parts

Go to the ‘Main Parts’ menu and select the ‘PROFILE’ tab. To input the sections’ geometry, import a DXF file stored locally on your PC. The DXF file can be received from ここに

Navigate to the ‘SCHEME’ タブ. When you click on the ‘Updated plate tcolumn cell, a popup window will appear. In this window, update the thickness for all edges to t=0 mm.

 

Add diaphragms to the sections, selecting the ‘Polygon’ タイプ. The edges for the diaphragm are defined in a popup window that appears when you click on the ‘Diaphragm Edgescolumn cell. In the ‘DIAPHRAGM INPUT’, select the edges that form the diaphragm shape and input the thickness (t).

 

Add diaphragms to the sections, selecting the ‘Polygon’ タイプ. The edges for the diaphragm are defined in a popup window that appears when you click on the ‘Diaphragm Edgescolumn cell. In the ‘DIAPHRAGM INPUT’, select the edges that form the diaphragm shape and input the thickness (t).

Add diaphragms to the sections, selecting the ‘Polygon’ タイプ. The edges for the diaphragm are defined in a popup window that appears when you click on the ‘Diaphragm Edgescolumn cell. In the ‘DIAPHRAGM INPUT’, select the edges that form the diaphragm shape and input the thickness (t).

ステップ 2. かみ合い

Navigate to the ‘Meshing’ メニュー. Set the FE element size to 50 んん, by frame set sub-mesh to the beam edges and then click the ‘Generate’ ボタン.

ステップ 3. Boundaries and Load

Go to the ‘Boundaries’ > ‘Nodes (カスタム)‘ menu. Add a new boundary group named ‘Group: 1」. Select the nodes and apply fixed constrains

 

Go to the ‘Loads > ‘Force Area (カスタム)‘ menu. Add a new Load group named ‘Group: 1」. Select the elements above vertical stiffeners, and then assign a load Fy of 5000 kN

ステップ 4. 線形座屈解析

Navigate to the ‘Analysis‘ menu. Select Linear Buckling. Click ‘Perform Analysis’ button.

ステップ 5. Imperfection from buckling mode

Navigate to the ‘Results’ メニュー, choose your preferred results options, and click ‘Displayto view the deformed state of the model. Click ‘Set Imperf.’. Navigate to the ‘Imperfections‘ > ‘From buckling’ menu, set scaling to 5 んん.

 

ステップ 6. Nonlinear Analysis

Navigate to the ‘Analysis‘ menu. Select Nonlinear Explicit including geometry and material nonlinearity. Click ‘Perform Analysis’ button.

 

While the analysis is in progress, navigate to ‘Chart’ menu. 最初, select a node to measure the Uy displacement (ステップ 1 そして 2). その後, using frame selection, choose nodes from which to extract the Ry reaction forces (ステップ 3 そして 4). Monitor the chart’s changes to identify the critical force (Pcr) that leads the structure to failure. Terminate the ongoing analysis once the failure state is detected.

 

 

 

 

ステップ 7. 結果

Navigate to the ‘Results’ メニュー, choose your preferred results options, and click ‘Displayto view the deformed state of the model.

 

 

 

 

 

 

 

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