We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for Coupled analysis software.
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Coupled analysis software Product List and Ranking from 8 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

Coupled analysis software Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

  1. TOKYO KOKI TESTING MACHINE CO.LTD. Kanagawa//Testing, Analysis and Measurement
  2. テラバイト Tokyo//software
  3. IDAJ Kanagawa//software
  4. 4 エヌ・エス・ティ Tokyo//software
  5. 4 サイエンスソリューションズ Tokyo//software

Coupled analysis software Product ranking

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

  1. [Fluid-Structure Interaction Case] Drop Analysis of a Water-Filled Bottle Using the ALE Method テラバイト
  2. Heat Transfer and Structural Coupled Analysis Software ASU/V-Struct TOKYO KOKI TESTING MACHINE CO.LTD.
  3. Introduction to Vacuum Forming Analysis Using ASU/V-Struct TOKYO KOKI TESTING MACHINE CO.LTD.
  4. 4 Rotating body and bearing coupled analysis software 'MADYN2000' エヌ・エス・ティ
  5. 4 [Case Study] Coupled Analysis with MATLAB/Simulink サイエンスソリューションズ

Coupled analysis software Product List

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Rotating body and bearing coupled analysis software 'MADYN2000'

We lead in the analysis of rotating bodies using specialized software for fluid film bearings, magnetic bearings, and coupled analysis with bearings, as well as optimization CAE analysis techniques.

MADYN2000 is a finite element software developed by experts in bearings for coupled analysis of rotating bodies and bearings. It allows for smooth performance analysis of rotating bodies, optimization analysis of various parameters of bearings, and coupled analysis with active magnetic bearings and their PID control systems. The calculation of support stiffness for rolling bearings uses software and libraries from Swiss company MESYS AG. 【Features】 ⇒ User-friendly with a sophisticated interface. ⇒ Easy model creation with copy and paste functions for input data. ⇒ Smooth unit selection and conversion with unit assistance features. ⇒ Developed on the MATLAB platform, facilitating collaboration with experimental data processing. Executable analysis functions (rotating bodies: lateral and torsional vibrations) - Support load analysis - Complex eigenvalue analysis at rated speed - Frequency response and unbalance analysis - Transient response and speed-up analysis - Parameter variable analysis → Campbell diagram → Critical speed map → Sensitivity analysis of support stiffness and dampers → Sensitivity analysis of coupling stiffness

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  • Coupled analysis software

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Analysis of the acoustic characteristics of truck cabins.

A case study of modeling the vehicle body structure and the acoustic space inside the cabin, and conducting coupled frequency response analysis.

We would like to introduce our analysis of "Cabin Acoustic Characteristics of Tracks Using Acoustic Coupled Analysis Function." In recent years, considering low noise environments has become very important. It is effective to use finite element method analysis to understand the acoustic characteristics of the cabin during the design phase and to reduce noise transmission to the operator through structural considerations. In this case, we used the Simcenter Nastran structural-acoustic coupled analysis function to model the vehicle body structure and the acoustic space within the cabin, conducting a coupled frequency response analysis to determine the acoustic transmission characteristics from the vehicle body mounting points to the operator's ear position. 【Case Overview】 ■ Function Used: Simcenter Nastran Structural-Acoustic Coupled Analysis Function ■ Analysis Content - Model the vehicle body structure and the acoustic space within the cabin - Conduct coupled frequency response analysis - Determine the acoustic transmission characteristics from the vehicle body mounting points to the operator's ear position *Detailed information about the case can be viewed through the related links. For more details, please feel free to contact us.

  • Contract Analysis
  • Coupled analysis software

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[RecurDyn Implementation Case] Mitsubishi Electric Corporation

Examples of applications that utilize analyses including mechatronics and other physical phenomena.

We would like to introduce a case where our "RecurDyn" has been implemented at Mitsubishi Electric Corporation, a comprehensive electrical equipment manufacturer. The introduction was made possible because F-Flex's direct method can solve the coupling of mechanical structures, allowing everything from mesh generation to analysis execution to be completed in one go. Additionally, the G-Manager function allows for a certain degree of freedom in switching between elastic bodies and rigid bodies. After the introduction, while other software sometimes struggles to perform analyses even with initial settings, we received feedback that our product provides reliable analysis with basic initial settings during the trial calculation phase, without requiring complex considerations. 【Case Overview】 ■ Advantages of our product - Provides reliable analysis with basic initial settings during the trial calculation phase. - Allows for free switching between elastic bodies and rigid bodies. *For more details, please download the PDF or feel free to contact us.

  • Mechanism Analysis
  • Software (middle, driver, security, etc.)
  • Coupled analysis software

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[Case Study] Coupled Analysis with MATLAB/Simulink

Introducing case studies of EMSolution! Detailed information on coupled analysis methods and more.

This document covers "Coupled Analysis with MATLAB/Simulink." It provides a detailed explanation of the coupled analysis methods, including examples of the plunger model. 【Contents】 ■ Introduction ■ Coupled Analysis Methods ・ Coupling of Electrical Circuit Systems ・ Coupling of Motion Equations ■ Analysis Examples ・ Plunger Model ・ Analysis of Brushless Servo Motors ■ Conclusion ■ Usage *For more details, please refer to the PDF document or feel free to contact us.

  • Magnetic field analysis/electromagnetic wave analysis
  • Analysis Services
  • simulator
  • Coupled analysis software

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Removing the barriers between designers and analysts: "Simcenter 3D"

It is a CAE tool that directly imports design data and handles coupled analysis (multiphysics) within a single framework.

"Simcenter 3D," a powerful tool that integrates CAE solutions from various specialized fields, can perform coupled analysis (multiphysics) simulations such as structural-fluid, structural-thermal, structural-thermal-fluid, and structural-mechanical analyses. It allows for the direct import of design data, mesh generation, and analysis all within a single framework. This is the digital tool of the future that removes the barriers between designers and analysts.

  • Plastic processing machines (cutting and rolling)
  • Analysis Services
  • Coupled analysis software

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Heat Transfer and Structural Coupled Analysis Software ASU/V-Struct

It is possible to stably compute large deformation analysis and coupled problems of nonlinearity (material, geometry, contact) and heat, which are difficult with general-purpose CAE software.

ASU/V-Struct is a high-performance thermal elastoplastic structural analysis program based on V-Struct, developed by the VCAD system research program at the RIKEN Institute. It features a thermal stress-thermal conduction coupled analysis solver that takes into account contact between deformed bodies, contact heat transfer, and pressure application to the processed materials. This allows for the simulation of deformation and residual stress in molded products due to heat in processes such as hot pressing, casting solidification, and resin injection molding cooling, where temperature changes need to be considered. It can also be applied to other areas such as mold deflection, tightening, vacuum forming, and adhesion analysis.

  • Structural Analysis
  • Coupled analysis software

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Introduction to Vacuum Forming Analysis Using ASU/V-Struct

Technical data presentation! We can support the vacuum forming site and mold design.

This document introduces the vacuum forming analysis using the heat transfer and structural coupling analysis software 'ASU/V-Struct'. Our product can stably compute coupled analyses of structural analysis and heat conduction analysis that involve nonlinearity (material, geometry, contact), which is difficult with general-purpose CAE software. It allows for the analysis of conditions during vacuum forming, enabling the investigation of forming conditions and defects in advance. We have included examples of analyses conducted on vacuum-formed resin sheets, which are easy to reference when considering implementation. Please feel free to download and take a look. [Contents] ■ Introduction ■ Analysis Examples ■ Conclusion *For more details, please download the PDF or feel free to contact us.

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  • Coupled analysis software

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Heat Transfer and Structural Coupled Analysis Software ASU/V-Struct

It is possible to stably compute large deformation analysis and coupled problems of nonlinearity (material, geometry, contact) and heat, which are difficult with general-purpose CAE software.

ASU/V-Struct is a high-performance thermal elastoplastic structural analysis program based on V-Struct, developed by the VCAD system research program at the RIKEN Institute. It features a thermal stress-thermal conduction coupled analysis solver that takes into account contact between deformed bodies, contact heat transfer, and pressure application to the processed material. This allows for the simulation of deformation and residual stress in molded products due to heat in processes such as hot pressing, casting solidification, and resin injection molding cooling, where temperature changes need to be considered. It is also applicable to other analyses such as mold deflection, clamping, vacuum forming, and adhesion analysis.

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  • Coupled analysis software

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Abaqus + α Solution "Fluid-Structure Interaction Analysis"

Achieve highly accurate fluid-structure interaction analysis! Easily implement complex formulation analysis settings!

IDAJ's "Fluid-Structure Interaction Analysis" achieves high-precision fluid-structure interaction analysis by using dedicated software specialized for both fluid and structure. There is a wealth of practical experience in the automotive, aerospace, maritime, energy, architecture, electrical, and chemical industries. The operations and settings necessary for data mapping and interaction analysis are organized in menus, making it easy to perform complex interaction analysis setups. 【Features】 ■ More realistic CAE through coupled analysis with Abaqus and STAR-CCM+ ■ Contributes to modeling considering multi-physics ■ Import and export functions in Abaqus format ■ One-way coupling function using data mapper ■ Unsteady bidirectional coupling function through direct co-simulation *For more details, please refer to the PDF materials or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Structural Analysis
  • Thermo-fluid analysis
  • Analysis Services
  • Coupled analysis software

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[Heat-Fluid-Structure Coupling Example] Cooling of a Metal Pipe

Cooling water absorbs heat from the metal pipe while flowing! The solver uses the high-precision version R10.1.0 of MPPDYNA.

We will introduce a case where cold water is flowed through a high-temperature metal pipe for cooling, analyzed as a thermal-fluid-structure coupled problem. The solver used is the R10.1.0 high-precision version of MPPDYNA, with parallel computation on 16 CPUs. As a result, the metal pipe is cooled and the temperature decreases, while the cooling water absorbs heat from the metal pipe as it flows, resulting in higher temperatures downstream. Additionally, the temperature at the surface in contact with the solid becomes higher than that on the inside, and in the final state, the temperature of the metal pipe approaches the temperature of the fluid (283.15[K]). 【Key Keywords】 ■*ICFD_BOUNDARY_FSI: Specify the fluid-structure coupling boundary ■*ICFD_CONTROL_FSI: Set default values for fluid-structure coupled analysis ■*ICFD_BOUNDARY_CONJ_HEAT: Perform heat exchange with the solid at the fluid-structure coupling boundary ■Other: Input *CONTROL_SOLUTION, soln=2 to set up thermal-structure coupled analysis *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
  • Coupled analysis software

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[Fluid-Structure Interaction Case] Drop Analysis of a Water-Filled Bottle Using the ALE Method

Check the effects of settings that allow fluid mesh movement to follow the structure!

This presentation introduces a case study of fluid-structure interaction analysis using the ALE method in "LS-DYNA," focusing on the drop analysis of a water-filled bottle. In addition to the conventional ALE method, analyses were conducted using the Structured-ALE (S-ALE) available from Ver.R9 and the automatic conversion function from the ALE model to the S-ALE model available from Ver.R10. Results comparing behavior and computation time are presented. When comparing Case 1 and Case 2, as well as Case 3 and Case 4, it is confirmed that the S-ALE exhibits behavior nearly identical to that of the conventional ALE while also reducing computation time. 【Model Overview】 - A water-filled bottle is placed at a 5-degree tilt on a horizontal rigid floor. - Initial velocity of 4,000 mm/s and gravitational acceleration are applied to the entire model for the drop analysis. *For more details, please refer to the related links or feel free to contact us.*

  • Structural Analysis
  • Coupled analysis software

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[Magnetic Field - Heat - Structural Coupling Case] Analysis of Ultra-High Magnetic Field Generation

Reproducing the "constricted" compression shape of a coil! Here is an example applied to a high magnetic field generation method.

Here is an example of ultra-high magnetic field generation analysis. By utilizing the magnetic field analysis function available from LS-DYNA Ver.R7, it is possible to conduct a magnetic field-thermal-structural coupled analysis considering large deformations of the coil using only "LS-DYNA." In the comparison of analysis results and experimental results for high magnetic field generation and coil shapes, the analysis captures the trends of the experimental results well, and the compression shape of the coil, which appears to "converge," is reproduced. 【Roles of Each Component in Electromagnetic Concentration Method】 ■ Liner Coil: Generates ultra-high magnetic fields ■ Primary Coil: Generates a magnetic field to compress the liner coil ■ Support Coil: Provides inertial mass and stiffness to the primary coil ■ Helmholtz Coil: Generates a seed magnetic field (external field) inside the liner coil, which is "concentrated" and becomes part of the ultra-high magnetic field *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
  • Coupled analysis software

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[Magnetic Field - Thermal - Structural Coupling Case] Volume 1: Analysis of High Magnetic Field Generation by Coil Method

Calculated up to 3 μsec! The analysis results and experimental results for the magnetic field generated at the center of the coil match well!

By utilizing the magnetic field analysis function available from LS-DYNA Ver.R7, it is possible to conduct a magnetic field-thermal-structural coupled analysis considering large deformations of coils using only "LS-DYNA." The coil in this case study is made of copper, and calculations were performed up to 3 microseconds. In the analysis, the electrical conductivity of copper is approximated using the Burgess model, which takes into account the electrical conductivity of copper in both solid and liquid states as implemented in this product. 【Case Overview】 ■ Magnetic field generated at the center of the coil - The analysis results align well with the experimental results. - It is evident that LS-DYNA's magnetic field-thermal-structural coupled analysis is highly accurate. ■ Deformation process of the coil and temperature distribution - There are areas that significantly exceed the melting point of copper (1358K), but in the analysis, these are considered in a liquid state, and the electrical conductivity in that state is taken into account. *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
  • Coupled analysis software

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