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[Case Study] Eigen Vibration and Frequency Response Analysis of Reinforced Concrete Structures

[Case Study] Eigen Vibration and Frequency Response Analysis of Reinforced Concrete Structures

Eigen vibration analysis and frequency response analysis of reinforced concrete structures!!!

○ Analysis of the natural vibration and frequency response of steel-reinforced concrete (SRC) structures (NX Nastran SOL103/SOL111) ○ Keywords: Steel-reinforced concrete (SRC) structures, natural vibration, effective mass ratio, frequency response ○ Case Overview ● For other functions and details, please download the catalog.

  • Scientific Calculation and Simulation Software

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Entrusted analysis

Entrusted analysis

We will utilize our long-standing accumulated know-how to conduct contracted analysis tailored to our customers' needs.

Our experienced engineers will respond appropriately. - There is no manpower or time to carry out analysis tasks. - We want to introduce CAE into our operations, so we would like support including training. - We are struggling with technical issues such as modeling and analysis methods. Please feel free to consult with us.

  • Gutters and U-shaped gutters

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[Analysis Case] Demagnetization Analysis of Interior Permanent Magnet Synchronous Motor (IPMSM)

[Analysis Case] Demagnetization Analysis of Interior Permanent Magnet Synchronous Motor (IPMSM)

Predicting the demagnetization state due to external factors that cause a magnet to lose its magnetism through analysis!

We would like to introduce the "Magnet Demagnetization Analysis of Interior Permanent Magnet Synchronous Motors (IPMSM)" conducted by our company. The analysis mode is transient response analysis, and the motor specifications are 3-phase, 8-pole, 48-slot, with distributed winding. The driving condition is 3,000 min^-1. As a result of the analysis, it was found that the demagnetization occurs at locations on the rotor core where the magnetic flux density is high, and it was also determined that the surrounding temperature of 125°C affects the coercivity reduction of Nd-Fe-B magnets. 【Analysis Conditions (Partial)】 ■ Analysis Mode: Transient Response Analysis ■ Motor Specifications: 3-phase, 8-pole, 48-slot, distributed winding ■ Driving Condition: 3,000 min^-1 ■ Magnet Surrounding Temperature: 125°C ■ Location of Electrical Short Circuit: Between Stator Windings *Details of the case can be viewed through the related links. For more information, please feel free to contact us.

  • Analysis and prediction system

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[Case Study] Analysis of Air Gap Magnetic Flux Density in Built-in Magnet Synchronous Motors

[Case Study] Analysis of Air Gap Magnetic Flux Density in Built-in Magnet Synchronous Motors

Understanding the magnetic flux density in the air gap is important! Here are some examples of magnetic flux density analysis for the relevant area.

We would like to introduce our analysis of the "Air Gap Magnetic Flux Density Analysis of Embedded Magnet Synchronous Motors (IPMSM)." The analysis mode used was transient response analysis, and the driving condition was no load at 3,000 min-1, with the analysis executed at the 45° position in the right diagram for 1/8 of the area (2D). As a result of the analysis, it was found that the magnetic flux density penetrating the air gap between the stator and rotor changes relative to the excitation timing of the stator coil of the rotating rotor. Therefore, analyzing the dynamic behavior is considered an effective approach. 【Analysis Conditions】 ■ Analysis Mode: Transient Response Analysis ■ Motor Specifications: 3-phase / 8-pole / 48-slot, distributed winding ■ Driving Conditions: No load / 3,000 min-1 ■ Analysis executed at the 45° position in the right diagram for 1/8 of the area (2D) ■ The air gap (air layer) between the stator and rotor is processed in 4 layers *For detailed information about this case, please refer to the related links. For more information, feel free to contact us.

  • Analysis and prediction system

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[Analysis Case] Analysis of the Propulsive Force of Linear Actuators

[Analysis Case] Analysis of the Propulsive Force of Linear Actuators

3D simulation is necessary for analysis! A case study analyzing the effects of differences in magnet length.

We would like to introduce the "Thrust Force Analysis of Linear Actuators" conducted by our company. In this case study, we analyzed the impact of differences in magnet length on the thrust direction and stroke of the motor. As a result of the analysis, we confirmed the presence or absence of magnetic saturation in the magnetic flux field circuit under the driving conditions of the motor, and found that magnetic saturation did not occur and the magnetic flux field was stable. 【Analysis Conditions】 ■ Driving Conditions: Input Current DC-1A/Phase ■ Stroke Operation Time: 4ms (Design Stroke Time Range 1-3ms)  ※ Design Stroke: -10mm to 10mm ■ Magnet Length Variation Width: -1mm, +3mm, +7mm (based on 60mm width)  ※ The magnet length was set as a variable, and calculations were performed for the above three variation widths. *Details of the case study can be viewed through the related links. For more information, please feel free to contact us.

  • Analysis and prediction system

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