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analysis(fem) - List of Manufacturers, Suppliers, Companies and Products

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
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analysis Product List

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Reliability analysis of solid fuel rockets

Reliability analysis of solid fuel rockets

Evaluate the entire process from curing and cooling to transportation and storage, as well as discharge heating and cooling, using AIFEM.

This article introduces the reliability analysis of solid fuel rockets using the general-purpose finite element analysis software AIFEM. The formulation, molding process, materials, and manufacturing processes of the rocket's solid fuel propellant directly affect the engine's performance. By using AIFEM to comprehensively evaluate the performance state throughout the entire lifecycle of the propellant column—from curing and cooling to transportation, storage, and discharge heating and cooling—we can achieve a comprehensive reliability assessment solution. *For more details, please refer to the related links. For further information, feel free to download the PDF or contact us.

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  • Other analyses
  • Other analysis software

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[AIFEM] Analysis of Automotive Door Deflection

[AIFEM] Analysis of Automotive Door Deflection

In AIFEM, you can easily check and evaluate local maxima and more!

The rigidity and strength of the door directly affect its reliability and also impact the airtightness of the passenger compartment. Therefore, it is important to analyze the structure and strength of the door to evaluate whether the maximum values of deformation and stress in specific directions are below the allowable limits. At the same time, the analysis of door sagging is also used to consider cost and lightweight design planning. This analysis is performed on a car door model to evaluate the stress applied to the door. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

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  • Other analysis software

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FEMFAT laminate: Fatigue strength analysis of continuous fiber reinforced resin

FEMFAT laminate: Fatigue strength analysis of continuous fiber reinforced resin

It is possible to analyze the fatigue strength of each layer of continuous fiber reinforced resin under multi-axial loading.

FEMFAT laminate is a module for fatigue analysis of continuous fiber reinforced resins (available in ChannelMAX). Within the MAX module, fatigue strength evaluation can be conducted individually for each laminate. The front and back sides of each laminate in the composite material are subject to damage calculation. The analysis method is adapted to the laminate material using the stress types of "Critical Component in Critical Plane," evaluating fiber breakage and interlayer breakage within the fibers. Furthermore, when using a solid element model (typically 8-node hexahedral elements), delamination can also be assessed. For damage calculation, static strength characteristics (tensile strength and compressive strength) and fatigue strength characteristics (S-N curves) are required for loads in the parallel and perpendicular directions to the fibers, as well as for shear loads in the laminate plane. It supports shell and solid elements defined with COMPOSITE properties using Abaqus inp files and odb files. *For more details, please download the PDF or contact us.*

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  • Structural Analysis

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[AIFEM] Static Analysis of Hydraulic Turbine Guide Vanes

[AIFEM] Static Analysis of Hydraulic Turbine Guide Vanes

Contributing to the evolution of the energy industry and consideration for the environment! Introducing the design and analysis of guide vanes.

In the 21st century, sustainable energy supply is becoming increasingly important, and among renewable energy sources, hydropower is widely adopted around the world as a clean and efficient means of energy production. The hydraulic turbine, which is a central element of hydropower plants, plays a role in converting the power of water into electricity, and the guide vanes are essential for maximizing performance. Guide vanes play a crucial role in hydraulic turbines, and their design and analysis are indispensable for the development of hydropower technology. This article focuses on the guide vanes of hydraulic turbines and conducts a static analysis using the general-purpose structural analysis software AIFEM. *For more details, you can view the related links. For more information, please download the PDF or feel free to contact us.*

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  • Turbine
  • Structural Analysis

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[AIFEM] Static stiffness analysis of vehicle body

[AIFEM] Static stiffness analysis of vehicle body

Compare the maximum displacements of the analysis results and reference values, and also conduct a verification of the analysis accuracy!

The resistance to twisting and bending of the vehicle body are important indicators for evaluating the comfort, handling, and safety of the car. This analysis was conducted using high-performance computing servers to perform a static analysis of the automobile body with millions of elements, investigating the torsional and bending resistance. *For more detailed information, you can view it through the related link. For further details, please download the PDF or feel free to contact us.*

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Topology optimization analysis of aircraft engine turbine disks.

Topology optimization analysis of aircraft engine turbine disks.

By considering manufacturing constraints, it leads to obtaining an even more ideal shape.

Using the general-purpose finite element analysis software AIFEM, we will conduct topology optimization analysis of an aircraft engine turbine disk. Since a typical turbine disk is designed based on the engineer's experience, knowledge, and numerous tests, it can be time-consuming and costly, and it may be difficult to achieve an ideal design effect that breaks through existing design thinking. By utilizing AIFEM's topology optimization function, we will perform structural optimization of the turbine disk, taking into account the coupling of thermal loads and centrifugal forces, to obtain a better shape. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

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  • Other analyses
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What can be understood from first-principles calculations.

What can be understood from first-principles calculations.

We will introduce the target of analysis, the physical property information obtained, and examples of analysis.

Analysis targets (Information such as composition and crystal structure is required for calculations) ? The main analysis targets are systems with periodicity, such as crystals. ? Calculations for systems with amorphous structures, surfaces, and interfaces are also possible. Obtained physical property information ? Crystal structure parameters (lattice constants, atomic arrangements, etc.) ? Electronic structure and spin states (charge distribution, band structure, Fermi surface, magnetic moments, etc.) ? Chemical bonding states such as covalent bonds and ionic bonds ? Stable structures and defect formation energies when lattice defects such as atomic substitutions and vacancies are present ? Formation energies and atomic arrangements of surfaces and interfaces ? Information related to chemical reactions, such as activation energies and structures of intermediates ? Electronic response characteristics such as dielectric functions, electrical resistivity, and Seebeck coefficients ? Thermodynamic quantities of solids, such as specific heat ? Various spectroscopic spectra (XPS, XAFS, etc.)

  • Contract measurement
  • Contract Analysis

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[Analysis Case] Analysis of Stray Losses in Power Transformers

[Analysis Case] Analysis of Stray Losses in Power Transformers

Analyze stray load losses under the condition of the presence or absence of leakage flux blocking components in the transcoil!

We would like to introduce the "Analysis of Power Transformer Stray Losses" conducted by our company. The analysis mode is frequency response analysis (Time Harmonic), and the rated capacity of the power transformer is 100 MVA. The input frequency is 50 Hz/AC. As a result of the analysis, it was found that the leakage magnetic flux generated from the transformer coil is significantly and extensively collected at the shunt wall. 【Analysis Conditions】 ■ Analysis Mode: Frequency Response Analysis (Time Harmonic) ■ Power Transformer Rating: 100 MVA ■ Input Frequency: 50 Hz/AC ■ Shunt Wall (Flux Collector): Magnetic Material ■ Frame Material, Tank Material: Carbon Steel *Details of the case can be viewed through the related links. For more information, please feel free to contact us.

  • Contract Analysis

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[Case Study] Behavior Analysis of Diaphragm Springs through Nonlinear Static Analysis

[Case Study] Behavior Analysis of Diaphragm Springs through Nonlinear Static Analysis

Non-linear static analysis of diaphragm spring behavior conducted! Reproduction of the jumping phenomenon.

We would like to introduce our analysis titled "Behavior Analysis of Diaphragm Springs Using Nonlinear Static Analysis." When a load is applied to a disc spring, the shape of the spring is complex, leading to not only bending but also twisting and buckling. Additionally, the support conditions are not constant, making it impossible to determine the load and stress using simple cantilever beam theory. In this analysis example, we were able to reproduce the jumping phenomenon of a diaphragm spring used in automotive clutches by conducting nonlinear static analysis on its behavior. 【Case Overview】 ■ Analysis Content: Nonlinear Static Analysis ■ Analysis Result: Reproduction of bidirectional jumping deformation of the diaphragm spring *For more detailed information about this case, please refer to the related links. For further inquiries, feel free to contact us.

  • Contract Analysis

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Thermal Fluid Analysis Service*

Thermal Fluid Analysis Service*

Specialized analysis engineers with a wealth of experience provide total support from factor identification to improvement proposals. If you have something you want to solve with CAE, please consult us first.

Our company has been a member of the UBE Group and Osaka Gas Group for approximately 40 years since its establishment, providing support for the design and troubleshooting of various equipment such as chemical plants and industrial machinery through analytical technology. Leveraging our extensive experience in fluid analysis, we will assist in improving your productivity. For example... - Improving yield by addressing temperature variations in kilns - Confirming mixing characteristics in the scale-up study of mixing tanks - Enhancing energy efficiency through improvements in heat transfer short paths and retention - Verifying airflow in clean rooms due to the addition of equipment - Improving the working environment for operators by changing VOC exhaust plans Please feel free to consult with us.

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Structural Analysis Service*

Structural Analysis Service*

Specialized analysis engineers with a wealth of achievements provide total support from factor identification to improvement proposals. If you have something you want to solve with CAE, please consult us first.

Our company has been a member of the UBE Group and Osaka Gas Group for approximately 40 years since its establishment, providing support for the design and troubleshooting of various facilities such as chemical plants and industrial machinery through our analytical technology. We will assist your design operations with our proven structural analysis technology. For example... - Stress evaluation of newly designed equipment - Prompt investigation of the causes of equipment failure and verification of countermeasure effectiveness - Standard evaluations to obtain approvals from public institutions and customers - Consideration of business partners to address the shortage of CAE personnel Please feel free to consult with us.

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Analytical consulting services*

Analytical consulting services*

Engineers specializing in the analysis of structures, heat transfer, thermal fluids, and vibrations provide thorough support for problem-solving!

Our company has been a member of the UBE Group and Osaka Gas Group for approximately 40 years since its establishment, providing support for the design and troubleshooting of various equipment such as chemical plants and industrial machinery through analytical technology. Engineers with multifaceted analytical skills in "structure," "heat transfer," "thermal fluid," and "vibration" will assist you in solving your challenges. For example... - Damage occurs only in equipment installed in a specific location. I want to investigate the cause. - A leak occurred due to pipe damage. I want to validate the effectiveness of countermeasures through simulation. - I want to change operating conditions to increase production, but will it affect the equipment's lifespan? - The manufacturer claims there are no design issues, but repeated damage occurs. I would like to hear a third-party opinion. Please feel free to consult with us.

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