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[Structural Analysis Example] Coupled Problem 2 Using Particle Method (SPH)

[Structural Analysis Example] Coupled Problem 2 Using Particle Method (SPH)

The aircraft is composed of shell elements with actual collision intensity equivalent! Introducing examples in aviation.

We will introduce the analysis of aircraft water landing behavior. The airplane is composed of shell elements that have equivalent impact strength. The number of nodes is 143,242, and the number of elements is 144,223 (Shells 8,691, SPH 135,542). In the related links below, we present the analysis results in images, so please take a look. 【Case Overview】 ■ Water is represented by SPH elements ■ The airplane is composed of shell elements that have equivalent impact strength ■ Number of nodes: 143,242 Number of elements: 144,223 (Shells 8,691, SPH 135,542) ■ Analysis time: 4.0 seconds Computation time: 34 hours 22 minutes ■ PC CPU: Core 2 Duo 64 bits×2 3.33GHz used *For more details, please refer to the related links or feel free to contact us.

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[Use Case] Structural Analysis

[Use Case] Structural Analysis

It is a field of engineering that deals with the behavior of structures subjected to dynamic loads (vibrations).

Structural analysis is a field of engineering that deals with the behavior of structures subjected to dynamic loads (vibrations). While it is possible to accurately predict the behavior of structures under static loads, dynamic loads require parameters that are difficult to model, such as structural damping. Therefore, to accurately determine the response of structures to dynamic loads, it is necessary to conduct some form of structural analysis test, such as a modal test. Modal testing allows for the experimental determination of the modal parameters of a structure. Modal parameters include resonance frequency, damping, and mode shapes. The resonance frequency is the frequency at which the response is amplified significantly beyond the applied excitation force. When the excitation force is close to the structure's resonance frequency, it often leads to adverse effects, making it important to know the resonance frequency. Excessive vibrations caused by resonance can lead to fatigue failure, damage to delicate parts of the structure, and in extreme cases, structural collapse. For more details, please contact us.

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