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

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

106~120 item / All 129 items

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FEMFAT Heat Extension Module: Low Cycle Thermal Fatigue Evaluation Theory

FEMFAT Heat Extension Module: Low Cycle Thermal Fatigue Evaluation Theory

Low Cycle Thermal Fatigue (TMF) Analysis Due to Temperature Cycle Load

Thermal-mechanical fatigue (TMF) analysis refers to the fatigue life prediction analysis targeting the combination of thermal and mechanical loads. TMF analysis is one of the most challenging tasks in the field of fatigue analysis. By introducing FEMFAT heat, this challenge can be addressed. The purpose of TMF analysis is to calculate the damage to components subjected to mechanical loads. It applies to parts exposed to high-temperature thermal fluctuations, such as turbochargers, cylinder heads, and exhaust manifolds. FEMFAT heat is based on an evaluation method demonstrated by Dr. Sehitoglu (University of Illinois, USA) and utilizes not only time-series temperature distribution data from finite element analysis (FEA) but also employs elastic-plastic stress and strain in fatigue life predictions. The characteristics of this evaluation method consider three mechanisms related to TMF damage: - Thermomechanical damage - Damage due to oxidation - Damage due to creep The FEMFAT material database used in FEMFAT heat is expanded compared to the commonly used material database for evaluating (high-cycle) fatigue life.

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  • Structural Analysis

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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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  • 【AIFEM】タービンロータのモーダル解析と静解析7.png
  • 【AIFEM】タービンロータのモーダル解析と静解析8.png
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  • 【AIFEM】タービンロータのモーダル解析と静解析10.png
  • Turbine
  • Structural Analysis

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[Case Study] Strength Analysis of Compressor 'AIFEM'

[Case Study] Strength Analysis of Compressor 'AIFEM'

Efficiently analyze the strength of compressors with high precision! Achieve efficient design verification through smooth operability!

We will introduce a case study on the strength analysis of a compressor using the general-purpose finite element analysis software AIFEM. A compressor is a device that converts mechanical energy into fluid energy, consisting of multiple moving blades (rotors) and stationary blades (stators). The moving blades rotate at high speeds, compressing the gas within the flow path and increasing its energy. During this process, the impact of centrifugal force is particularly significant, necessitating high strength in the moving blades; therefore, strength analysis that adequately considers centrifugal force loading is crucial. With AIFEM's efficient pre-post processing and high-precision solver, we achieve a faster analysis process in development design and shorten the design cycle. *For more details, please download the PDF or feel free to contact us.*

  • Structural Analysis
  • simulator
  • Stress Analysis

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[Example] Structural Strength Analysis of a Pump 'AIFEM'

[Example] Structural Strength Analysis of a Pump 'AIFEM'

One of the investigations into the impact of peak water pressure on structures! A case study analyzing the strength of the pump body.

We would like to introduce a case study of static analysis of a pump structure using the general-purpose finite element analysis software "AIFEM." The pump model being analyzed consists of two components: the main body and the cover, which are connected by a flange. By investigating the pressure distribution of the pump, it is possible to confirm the mechanical properties of the structure and quickly evaluate the design in question. 【Analysis Conditions】 ■ Material - Young's Modulus: 205000 [MPa] ■ Material - Poisson's Ratio: 0.28 ■ Load Condition: C surface 4.5 [MPa] ■ Component Joint: D surface, E surface ■ Constraint Conditions: A surface, B surface *For more details, please download the PDF or feel free to contact us.

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  • Other analysis software

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[AIFEM] Topology Optimization of Hull Webs

[AIFEM] Topology Optimization of Hull Webs

Utilize AIFEM's topology optimization feature! Consider multiple analysis steps and various working conditions.

Using the general-purpose finite element analysis software AIFEM, we will perform topology optimization of the hull web. The hull web not only plays a role in supporting the hull but is also an important structure that enhances the stability of the hull underwater. In the shipbuilding process, the hull web is generally manufactured using high-strength steel plates or aluminum plates, and it is necessary to ensure that cracks or deformations do not occur during navigation. Therefore, when optimizing the web plate for weight reduction, it is essential to consider the effects of multiple mechanical working conditions. With this objective, by utilizing the topology optimization function of AIFEM, it becomes possible to address topology optimization scenarios that take into account multiple analysis steps and various working conditions. *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
  • simulator

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[Case Study] Eigenvalue Analysis of Engine Block 'AIFEM'

[Case Study] Eigenvalue Analysis of Engine Block 'AIFEM'

Accurately evaluate the natural frequency and mode shapes of the engine block! Obtain information that leads to performance improvement in the design phase!

We will introduce a case study on eigenvalue analysis of engine blocks using the general-purpose finite element analysis software AIFEM. The eigenvalue characteristics of the engine block are crucial factors that influence the overall operational stability and durability of the engine. In particular, they relate to the operational lifespan and reliability of key components such as the piston, cylinder liner, and crankshaft, and they also significantly impact the engine's NVH (Noise, Vibration, and Harshness) performance. The effects of external excitation are particularly pronounced in the lower four mode frequencies, where resonance can lead to amplified vibrations. Therefore, it is essential to identify the main mode shapes and frequencies through eigenvalue analysis and implement appropriate design measures. Applications of this analysis: ■ To avoid the risk of resonance and prevent damage due to excessive vibrations ■ To enhance comfort by optimizing NVH performance ■ To find the optimal balance between lightweight design and rigidity *For more details, please download the PDF or feel free to contact us.

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  • simulator
  • Structural Analysis
  • Stress Analysis

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Strength analysis software for printed circuit boards 'FEMFAT MELCOM'

Strength analysis software for printed circuit boards 'FEMFAT MELCOM'

Simulating to predict defects on printed circuit boards used in power electronics products.

"FEMFAT MELCOM" is a software package developed by Magna Powertrain Engineering Center Steyr (ECS) to predict defects on printed circuit boards (PCBs) incorporated in power electronics products such as inverters through simulation. 【Features】 ■ Predicts cracks in solder joints on printed circuit board assemblies (PCBAs) due to vibrations in power electronics products. ■ Predicts flex cracks in multilayer ceramic capacitors (MLCCs) during the process of attaching PCBAs to power modules. ■ Predicts cracks due to thermal fatigue in response to temperature loads on PCBAs. *For more details, please download the PDF or contact us.

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  • Structural Analysis

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[Case Study] Modal Analysis of a Dust Pump's Centrifugal Impeller 'AIFEM'

[Case Study] Modal Analysis of a Dust Pump's Centrifugal Impeller 'AIFEM'

Examples of the first five non-rigid motion modes, excluding the sixth rigid motion mode!

We would like to introduce an application case of modal analysis for the centrifugal impeller of a dust pump using our intelligent structural analysis software "AIFEM." This software is equipped with a finite element solver developed in-house. It analyzes the free modes of the centrifugal impeller of the dust pump. The software can accurately capture the first six rigid body free modes, which are close to zero frequency. 【Case Overview】 ■ Analyzes the free modes of the centrifugal impeller of the dust pump ■ Capable of accurately capturing the first six rigid body free modes close to zero frequency *For more details, please download the PDF or feel free to contact us.

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  • Other analysis software

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[Case Study] Static Analysis of Movable Blades for Water Wheels 'AIFEM'

[Case Study] Static Analysis of Movable Blades for Water Wheels 'AIFEM'

Examples of products that create a wealth of solutions for diverse applications!

We would like to introduce an application case of static analysis for movable blades of water turbines using our intelligent structural analysis software "AIFEM." This software supports engineers in solving engineering problems related to statics, dynamics, and thermodynamics associated with structures. We defined displacement constraints on the fixed ring of the guide vanes and applied water flow pressure loads in front of and behind the guide vanes, conducting simulations under three operating conditions: rated, maximum lift, and boost. [Case Overview] - We defined displacement constraints on the fixed ring of the guide vanes and applied water flow pressure loads in front of and behind the guide vanes, conducting simulations under three operating conditions: rated, maximum lift, and boost. *For more details, please download the PDF or feel free to contact us.

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  • Other analysis software

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[Case Study] Strength Analysis of Turbine Top Cover 'AIFEM'

[Case Study] Strength Analysis of Turbine Top Cover 'AIFEM'

Examples of products that use a friendly and user-friendly wizard-style interactive interface!

We would like to introduce a case study on the strength analysis of the turbine top cover using our intelligent structural analysis software "AIFEM." This software provides fast and accurate finite element analysis and design optimization functions, supporting companies in establishing efficient optimal design processes. By defining a pressure load on the bottom surface of the top cover and using a 1/4 model with rotational symmetry boundary conditions, we simulated the deformation of the top cover. This analysis takes into account geometric nonlinearity. [Case Overview] ■ Defined a pressure load on the bottom surface of the top cover and simulated the deformation using a 1/4 model with rotational symmetry boundary conditions. ■ Geometric nonlinearity is considered. *For more details, please download the PDF or feel free to contact us.

  • タービントップカバーの強度解析2.PNG
  • Other analysis software

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Printed Circuit Board Strength Analysis Software for the Industrial Machinery Industry

Printed Circuit Board Strength Analysis Software for the Industrial Machinery Industry

We will streamline the vibration analysis of power electronics products and improve product reliability.

We introduce the software 'FEMFAT MELCOM' for efficiently conducting strength analysis of printed circuit boards (PCBs) used in power electronics products. In products operating in vibration environments, such as industrial machinery, defects on the printed circuit board can pose serious issues. FEMFAT MELCOM predicts these defects in advance through simulation, contributing to the improvement of product reliability. 【Usage Scenarios】 - Industrial Machinery: Prevent failures and performance degradation due to insufficient strength of printed circuit boards in industrial machinery operating in vibration environments. - Power Electronics Devices: Enhance the reliability of power electronics devices, such as inverters and converters, which are sensitive to vibrations. - Automobiles: Ensure the reliability of electronic control systems in vehicles, such as electric and hybrid vehicles, which operate in harsh vibration environments. 【Benefits of Implementation】 By implementing FEMFAT MELCOM, the following benefits can be expected: - Predict strength issues of printed circuit boards at an early stage of product development, allowing for countermeasures during the design phase. - Reduce the number of physical tests, achieving shorter development periods and cost savings. - Improve product quality and reliability, thereby increasing customer satisfaction.

  • Structural Analysis

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Printed Circuit Board Strength Analysis Software for the Power Industry

Printed Circuit Board Strength Analysis Software for the Power Industry

Enhancing the reliability of power electronics products and achieving a reduction in development time.

In the development of power electronics products in the power sector, ensuring the strength of printed circuit boards (PCBs) is a critical issue. Damage to PCBs due to vibration and heat can lead to decreased product reliability and development delays. 'FEMFAT MELCOM' is a strength analysis software for printed circuit boards developed to address these challenges. 【Usage Scenarios】 - Development of power electronics products at power companies - Design of power conversion devices, inverters, converters, etc. - Evaluation of the risk of PCB damage due to vibration and heat - Improvement of reliability in product development 【Effects of Implementation】 By implementing 'FEMFAT MELCOM', the following effects can be expected: - Streamlining the strength analysis of printed circuit boards, shortening development time - Early detection of defects during the product design phase, reducing development costs - Improvement of reliability for power electronics products - Strengthening competitiveness

  • Structural Analysis

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Printed Circuit Board Strength Analysis Software for Communication Equipment Manufacturers

Printed Circuit Board Strength Analysis Software for Communication Equipment Manufacturers

Streamlining the strength analysis of printed circuit boards for power electronics products!

The printed circuit boards of power electronics products mounted in communication equipment are exposed to vibrations and thermal loads, which pose a risk of defects such as cracks in solder joints and damage to components. These defects can lead to reduced product reliability and development delays, making it necessary to predict and implement countermeasures in advance. 'FEMFAT MELCOM' is a strength analysis software for printed circuit boards developed to address these challenges. 【Usage Scenarios】 - Development of power electronics products in communication equipment manufacturers - Strength analysis and durability evaluation of printed circuit boards - Prediction of defects caused by vibrations and thermal loads - Countermeasures during the design phase of product development 【Benefits of Implementation】 By implementing 'FEMFAT MELCOM', the following benefits can be expected: - Streamlining strength analysis of printed circuit boards, leading to a reduction in development time - Reducing the risk of defects and contributing to improved product reliability - Enabling countermeasures during the design phase, resulting in reduced development costs

  • Structural Analysis

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PCB Strength Analysis Software for the Medical Device Industry

PCB Strength Analysis Software for the Medical Device Industry

Simulation of the strength of printed circuit boards for power electronics products.

To enhance the reliability of power electronics products mounted on medical devices, strength analysis of printed circuit boards (PCBs) is essential. However, accurately evaluating the strength of PCBs with complex structures is not easy. Therefore, 'FEMFAT MELCOM,' developed by Magna Powertrain ECS, is software that predicts the strength of PCBs through simulation, enabling the identification of issues during the design phase. 【Application Scenarios】 - Design and development of power electronics products for medical devices - Strength evaluation of printed circuit boards - Prediction of PCB degradation due to vibration and heat - Identification of issues and countermeasures during the design phase 【Benefits of Implementation】 By implementing 'FEMFAT MELCOM,' the following benefits can be expected: - Improved product reliability through issue identification and countermeasures during the design phase - Reduced number of physical tests and shortened development time - Cost reduction - Increased efficiency in product development

  • Structural Analysis

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Printed Circuit Board Strength Analysis Software for the Semiconductor Manufacturing Equipment Industry

Printed Circuit Board Strength Analysis Software for the Semiconductor Manufacturing Equipment Industry

Streamlining the strength analysis of printed circuit boards for power electronics products!

Power electronics products mounted on semiconductor manufacturing equipment are becoming more high-performance and compact, while the risk of damage to printed circuit boards due to vibration and heat is increasing. Traditional design methods have made it difficult to adequately assess these risks, leading to longer development times and increased costs. 'FEMFAT MELCOM' is a strength analysis software for printed circuit boards developed to address these challenges. 【Usage Scenarios】 - Development of power electronics products mounted on semiconductor manufacturing equipment - Strength analysis of printed circuit boards - Evaluation of damage risks due to vibration and heat - Reduction of development time - Cost reduction 【Benefits of Implementation】 By implementing 'FEMFAT MELCOM', the strength analysis of printed circuit boards for power electronics products can be streamlined, achieving shorter development times and cost reductions. Additionally, pre-evaluation through simulation contributes to improved product reliability.

  • Structural Analysis

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