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

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 2025
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Analysis Product List

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Design and Analysis

Design and Analysis

Three-dimensional analysis and design technology that is becoming increasingly important.

Three-dimensional analysis and design technology reduces rework during development, improves quality, and lowers development costs. Furthermore, by utilizing the three-dimensional data provided by the design department, it has also made it possible to share information used across various departments. Our company aims to provide engineering solutions for manufacturing with the keyword "three-dimensional," offering solutions to meet all customer needs from 3D CAD/CAE/CAM/CAT/DMU, and supporting concurrent engineering.

  • 3D CAD
  • Analysis Services
  • Data conversion software

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Contracted analysis

Contracted analysis

We will utilize our long-standing accumulated know-how to conduct contract 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 challenges such as modeling and analysis methods. Please feel free to consult with us.

  • Contract Analysis

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Analyze Stampack Xpress

Analyze Stampack Xpress

Press analysis that can be used with surprisingly simple operations, requiring no FEM knowledge. Reduces the need for trial runs with actual machines, lowering the time and cost for creating press molds.

【Easy Operation】 Preparation for executing analysis involves only the operation of setting up a blank and assembling the process. 【High-Speed Calculation】 The calculation speed is extremely fast due to unique methods in addition to general computational acceleration. 【From Rough to Detailed】 In shell element analysis, a rough understanding of phenomena occurring in the forming process is obtained. This is followed by solid element analysis, which accurately predicts the details of the molding process. 【Springback and Springforward】 Calculations are performed not only for springback due to forming but also for springback caused by trimming and cutting processes. Springforward calculations are also performed to determine mold shapes that take springback deformation into account. 【Trimming Optimization】 A function to properly adjust the material extraction of the blank. By inputting the initial shape of the blank and the target shape after forming, an appropriate blank shape is calculated. 【CAD Interface】 The mold shape required for forming utilizes CAD data. In addition to industry-standard formats like Para Solid and Step, it can also read Siemens NX and Dassault CatiaV5.

  • Other analyses

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General-purpose finite element method analysis Femap

General-purpose finite element method analysis Femap

Top-class FEA solution for Windows environment

Femap is a highly regarded, CAD-independent, Windows-native pre/post-processor for advanced engineering finite element analysis (FEA).

  • Other analyses

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Modal analysis and static analysis of turbine rotors【AIFEM】

Modal analysis and static analysis of turbine rotors【AIFEM】

Created a mesh model using the mesh creation tool within AIFEM! Results demonstrating the effectiveness of the software.

In this case, we will introduce the modal analysis and static analysis of the turbine rotor using the structural analysis software AIFEM. The analysis results obtained with AIFEM demonstrated the effectiveness of the software through comparison with reference data (a certain commercial software). The model subject to analysis consists of a hub, shroud, and seven blades, forming the turbine rotor. The shape data used is in .stp format, and a mesh model was created using the mesh creation tool within AIFEM. *For detailed content of the article, you can view it through 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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Structural analysis of prismatic Li-ion batteries.

Structural analysis of prismatic Li-ion batteries.

Observation using optical microscopy and ultra-low acceleration FE-SEM! Detailed structural analysis and elemental analysis are possible.

By mechanically polishing commercially available rectangular Li-ion batteries and observing them with optical microscopy and ultra-low acceleration FE-SEM, detailed structural analysis and elemental analysis can be performed. The materials introduce the overall structure of the Li-ion battery and detailed structural observations of the Li-ion battery using SEM and ultra-low acceleration FE-SEM through photographs. [Analysis Overview] ■ Overall structure of the Li-ion battery and SEM observation ■ Detailed structural observation of the Li-ion battery using ultra-low acceleration FE-SEM *For more details, please refer to the PDF materials or feel free to contact us.

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  • Analysis Services
  • Other contract services

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FEMFAT Max Extension Module: Fatigue Strength Analysis of Multiaxial Operating Loads

FEMFAT Max Extension Module: Fatigue Strength Analysis of Multiaxial Operating Loads

Accurate fatigue strength evaluation under actual load conditions.

Predicting fatigue life under multi-axial loading is one of the significant challenges. The approach applied in FEMFAT max is based on research results conducted in collaboration with international research institutions, as well as the latest development achievements and academic papers within the company. All methods, theories, and hypotheses have been utilized in various projects and have been successfully validated. FEMFAT max includes ChannelMAX and TransMAX based on loading conditions, evaluating damage or fatigue life, fatigue limit safety factors, static fracture safety factors, and multi-axiality at each FE node. 【Module Introduction】 - Accurate fatigue strength assessment under actual loading conditions - Interface for time history data compatible with general-purpose mechanism analysis software and measurement software (e.g., ADAMS, RPC, DIAdem) - Input of loads corresponding to superposition (Channel) and transient response (Transient) - Filtering function for quick calculations only at necessary locations - Safety factors and damage calculations for fatigue limits under multi-axial stress states *For more details, please download the PDF or contact us.

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  • Structural Analysis

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FEMFAT Spot Extension Module: Fatigue Strength Analysis of Spot Welds

FEMFAT Spot Extension Module: Fatigue Strength Analysis of Spot Welds

It correctly expresses the rigidity of spot welds and SP rivets.

To ensure the structural strength of passenger car and truck cabins, numerous spot welds and punch rivets are required. Each of these joints implies the potential for initial cracks, necessitating particularly reliable methods for fatigue strength analysis. FEMFAT spot provides an evaluation method for accurately simulating the stiffness and durability strength of thin sheet metal components composed of spot welds. FEMFAT spot offers two different approaches: ◆ A method using element stresses from shell elements ◆ A method using element forces from connection elements (JSAE method) *For more details, please download the PDF or contact us.

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  • Structural Analysis

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[AIFEM] Strength Analysis of Automotive Floor

[AIFEM] Strength Analysis of Automotive Floor

By comparing the results of strength analysis and eigenvalue analysis with reference results, the verification of AIFEM's analysis accuracy is also conducted simultaneously!

The rear floor of the vehicle is influenced by both the static load of the tires and the dynamic load from the road surface. Verifying the deformation and stress distribution of the floor plays an important role not only in improving the safety performance of the vehicle but also in leading to proposals for new structural designs. In this analysis, we will conduct structural strength and eigenvalue analysis of the vehicle floor to investigate its structural performance. *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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Strength analysis of the steel structure of the transfer device.

Strength analysis of the steel structure of the transfer device.

Conducted strength analysis using AIFEM! High strength performance is required for structures.

This article introduces the strength analysis of the steel structure of a transfer device used offshore, conducted using the general-purpose finite element analysis software AIFEM. The transfer device is used for transporting and moving large marine equipment, thus requiring high strength performance in its structure. Strength analysis was performed using AIFEM to identify the weak points of the structure under different working conditions. *For more detailed information, please refer to the related links. You can download the PDF for more details or feel free to contact us.*

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  • Structural Analysis

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Failure analysis of power devices

Failure analysis of power devices

We will identify and observe the defective areas of power devices such as diodes, MOS-FETs, and IGBTs.

We perform optimal preprocessing for power devices such as diodes, MOS FETs, and IGBTs of all sizes and shapes, and identify and observe defective areas through backside IR-OBIRCH analysis and backside emission analysis. ■ Preprocessing for analysis - Backside polishing - We accommodate various sample forms. Si chip size: 200um to 15mm square ■ Defective area identification - Backside IR-OBIRCH analysis and backside emission analysis - IR-OBIRCH analysis: Supports up to 100mA/10V and 100uA/25V Emission analysis: Supports up to 2kV * We address a wide range of defect characteristics such as low-resistance shorts, micro leaks, and high voltage breakdown failures. ■ Pinpoint cross-sectional observation of leak areas - SEM/TEM - We select SEM or TEM observation based on the predicted defects and can conduct physical observation and elemental analysis of leak defect areas with precision.

  • Contract Analysis
  • Transistor
  • Analytical Equipment and Devices

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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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