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Element Analysis Software Product List

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[Case Study] Shape optimization to improve natural frequency ★ Detailed materials available

[Case Study] Shape optimization to improve natural frequency ★ Detailed materials available

Control the natural frequency while considering the MAC value. Utilize parallelization to handle large-scale models in a short time.

By changing the shape, we improve the natural frequency and resonance frequency. Additionally, we have added conditions to allow for die-cutting in accordance with manufacturing requirements. In recent years, the performance of PCs has increased, and the scale of models required for finite element analysis has also grown larger. In such cases, utilizing parallelization allows for significant time reduction. This time, we performed shape optimization of a large-scale model with over one million nodes using parallelization. 【Analysis Model】 ■ Elements: Tetrahedral second-order elements ■ Number of elements: 653,931 ■ Number of nodes: 1,026,428 <Related Keywords> - Rib shape - Matching while considering MAC values - Controlling eigenvalues *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis
  • Contract Analysis
  • Other analyses

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Example: Warpage countermeasures for connectors in injection molding.

Example: Warpage countermeasures for connectors in injection molding.

By collaborating with 3D TIMON, we automatically adjust the thickness of solid element models, thereby suppressing warping deformation.

We will introduce a case where warping was minimized by changing the thickness of solid elements. The analysis was conducted using the "basis vector method," which modifies the shape by moving the nodes of the finite element model without using CAD. Several patterns (basis vectors) of the desired shape were prepared from the initial model and combined. As a result of the optimization, the sum of squares of warping improved by 33% to 4.9480e-004 compared to the initial shape, and the maximum warping amount (mm) improved by 12% to 3.8607e-002. [Case Overview] ■ Optimization Conditions - Design Variables: Thickness A, B - Sampling: Initially LHS 20 points, Approximate optimal solution + 10 recommended points - Approximate Model: CRBF (Convolutional RBF) ■ Analysis: Basis Vector Method *For more details, please refer to the PDF document or feel free to contact us.

  • Other analyses

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[Case Study] Shape optimization to increase resonance frequency ★ Detailed materials available

[Case Study] Shape optimization to increase resonance frequency ★ Detailed materials available

Control the natural frequency while considering the MAC value. Utilize parallelization to handle large-scale models in a short time.

By changing the shape, we improve the natural frequency and resonance frequency. Additionally, we have added conditions to allow for die-cutting in accordance with manufacturing requirements. In recent years, the performance of PCs has increased, and the scale of models required for finite element analysis has also grown larger. In such cases, significant time reductions can be achieved by utilizing parallelization. This time, we performed shape optimization of a large-scale model exceeding one million nodes using parallelization. 【Analysis Model】 ■ Elements: Tetrahedral second-order elements ■ Number of elements: 653,931 ■ Number of nodes: 1,026,428 <Related Keywords> - Rib shape - Matching considering MAC values - Control of eigenvalues *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis
  • Contract Analysis
  • Other analyses

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Abaqus Unified FEA

Abaqus Unified FEA

Solution for realistic simulation

A complete finite element modeling and analysis solution to simulate the real-world behavior of materials, processes, and products.

  • Other analyses

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Abaqus Unified FEA, an integrated finite element analysis software.

Abaqus Unified FEA, an integrated finite element analysis software.

This is an introduction to a suite of integrated finite element method products consisting of Abaqus/CAE.

"Abaqus Unified FEA" is a complete solution for realistic simulation. It provides a powerful suite of solutions that covers a wide range of industrial applications, from routine analyses to advanced engineering problems. By organizing and integrating your processes and tools, you can improve inefficiencies, reduce costs, and secure competitiveness. 【Features】 ■ An integrated finite element method product group consisting of Abaqus/CAE, which is dedicated to pre/post processing for Abaqus ■ Achieves high-precision simulations ■ Significantly contributes to reducing development time and costs by decreasing the number of prototypes/experiments ■ Provides solutions for realistic simulation For more details, please contact us or download the catalog.

  • Image analysis software

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[AIFEM] Topology Optimization of Hull Webs

[AIFEM] Topology Optimization of Hull Webs

Utilize AIFEM's topology optimization feature! Consider multiple analysis steps and various working conditions.

Using the general-purpose finite element analysis software AIFEM, we will perform topology optimization of the hull web. The hull web not only plays a role in supporting the hull but is also an important structure that enhances the stability of the hull underwater. In the shipbuilding process, the hull web is generally manufactured using high-strength steel plates or aluminum plates, and it is necessary to ensure that cracks or deformations do not occur during navigation. Therefore, when optimizing the web plate for weight reduction, it is essential to consider the effects of multiple mechanical working conditions. With this objective, by utilizing the topology optimization function of AIFEM, it becomes possible to address topology optimization scenarios that take into account multiple analysis steps and various working conditions. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

  • 船体ウェブのトポロジー最適化2.png
  • 船体ウェブのトポロジー最適化3.png
  • 船体ウェブのトポロジー最適化4.png
  • 船体ウェブのトポロジー最適化5.png
  • Other analyses
  • simulator

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