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Analysis Product List and Ranking from 376 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

Analysis Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

  1. アイテス Shiga//Electronic Components and Semiconductors
  2. ヒューリンクス Tokyo//software
  3. 中電シーティーアイ 本社 Aichi//Service Industry
  4. 4 一般財団法人材料科学技術振興財団 MST Tokyo//Testing, Analysis and Measurement
  5. 5 null/null
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Analysis Product ranking

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

  1. Graph Creation and Data Analysis for Researchers: KaleidaGraph ヒューリンクス
  2. DAXON Reaction Tank Impact Analysis Service *Introduction Materials Available 中電シーティーアイ 本社
  3. Specification verification and failure analysis through reliability testing. アイテス
  4. 4 Dad's factory DX solution promoting manufacturing.
  5. 5 Food-grade twin-screw extruder 'TEX-F'

Analysis Product List

481~510 item / All 1046 items

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Unsteady temperature analysis of induction heating and quenching coils / μ-Excel Induction Heating Edition

Unsteady temperature analysis of induction heating and quenching coils / μ-Excel Induction Heating Edition

High-frequency heating, temperature, heat generation, magnetic field distribution, transmission/radiation, temperature dependence, heating ON/OFF cycle is visible!

μ-Excel is analysis software that uses a two-dimensional (or axisymmetric) finite element method. The μ-Excel series consists of individual packages for each analysis theme, allowing for smooth analysis through customized input and output screens for each theme. Additionally, it utilizes Excel macros in the GUI, enabling users to operate it seamlessly with familiar Excel. It is evolving into a rich variety of themes, not only for electromagnetic field analysis but also for heat, structure, fluid, and electromagnetic waves. Please look for the series that matches your theme (currently, there are a total of 11 series). 【Features】 - High-frequency eddy current analysis of heating coils - Unsteady temperature analysis - Temperature, heat generation, magnetic field distribution, magnetic field lines - Transmission boundaries, radiation boundaries, material temperature dependence, nonlinearity of magnetic materials - Impedance calculation, resonant circuit design * It can be introduced at a lower price compared to other analysis software. The academic version is even more economical! * For more details, please contact us or download the PDF.

  • simulator
  • Analysis

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Unsteady temperature distribution analysis of heating and cooling mechanisms / μ-Excel Thermal Conductivity Edition

Unsteady temperature distribution analysis of heating and cooling mechanisms / μ-Excel Thermal Conductivity Edition

Visualize thermal conductors, heating elements, cooling pipes, temperatures of heating/cooling cycles, and heat flux!

μ-Excel is analysis software that uses a two-dimensional (or axisymmetric) finite element method. The μ-Excel series consists of individual packages for each analysis theme, allowing for smooth analysis from customized input and output screens tailored to each theme. Additionally, it utilizes Excel macros in the GUI, enabling operation in a familiar Excel environment without discomfort. It is evolving into a rich variety of themes, not only for electromagnetic field analysis but also for heat, structure, fluid, and electromagnetic waves. Please look for the series that matches your theme (currently, there are a total of 11 series). 【Features】 - Transient temperature analysis - Temperature and heat flow distribution - Specification of heat-generating bodies and cooling pipes - Consideration of contact thermal conductivity between materials - Transmission boundaries, radiation boundaries, and material temperature dependence (under development) * It can be introduced at a lower price compared to other analysis software. The academic version is even more economical! * For more details, please contact us or download the PDF.

  • simulator
  • Analysis

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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
  • Analysis

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

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

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 the "Air Gap Magnetic Flux Density Analysis of Interior Permanent Magnet Synchronous Motors (IPMSM)" conducted by our company. The analysis mode used was transient response analysis, and the driving conditions were no load at 3,000 min-1, with the analysis executed at the 45° position in the right diagram for 1/8 of the section (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 with respect to 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 section (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 details, feel free to contact us.

  • Contract Analysis
  • Analysis

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[Analysis Case] Optimization Analysis of Connecting Rod Shape

[Analysis Case] Optimization Analysis of Connecting Rod Shape

Analysis conducted with a 1/2 model! A case study seeking the shape that minimizes equivalent stress.

We would like to introduce the "Optimization Analysis of Connecting Rod Shape" conducted by our company. In this case, we sought the shape that minimizes the equivalent stress while maintaining volume when compressive and tensile loads are applied to the connecting rod. Additionally, we performed optimizations that included the condition for minimizing the elliptical deformation of the large end hole under tensile load, as well as optimizations that maintain stress and displacement while minimizing volume. 【Stress Minimization Results】 ■ Equivalent Stress Reduction Rate - Under compressive load: approximately 25% - Under tensile load: approximately 28% ■ Number of Optimization Iterations: 50 ■ Analysis Time: 21 minutes *Detailed information about this case can be viewed through the related links. For more information, please feel free to contact us.

  • Contract Analysis
  • 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
  • Analysis

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Analysis of Fracture Surface: Analysis of the Fracture Condition of the Screw Fracture Surface

Analysis of Fracture Surface: Analysis of the Fracture Condition of the Screw Fracture Surface

The cause of the fracture can be investigated by analyzing the starting point of the fracture surface and the direction of progression.

When destruction (cracks or fractures) occurs in resin or metal parts, why did the destruction happen? Fracture surface analysis is effective when you want to identify the cause. By observing the features hidden in the shape left on the broken part, we can estimate: - "From which location" the origin started, - "In which direction" the progression occurred, - "What kind of force" was applied that caused the destruction. As an example, we will introduce the analysis of a broken screw. We conducted an analysis of the origin and progression direction of the fracture surface. Through these analyses, the cause of the destruction can be elucidated.

  • Contract Analysis
  • Contract measurement
  • Contract Inspection
  • Analysis

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Mechanical Design Development and Analysis

Mechanical Design Development and Analysis

We provide engineering services that contribute to better product design and development!

Our company offers engineering services that cater to outsourcing needs from conceptual design to detailed design and parts drawing development. We aim to establish long-term collaborative relationships, not only to understand the characteristics of our customers' products but also to comprehend the underlying development environment and individual rules, enabling us to provide the best possible support. Additionally, in the fields of design and development, we leverage the know-how gained from years of experience in analysis to set optimal conditions and evaluations that align with analysis objectives. We contribute to better product design and development through application advice based on analysis results. [Mechanical Design] ■ Machine tools / Sheet metal forming machinery ■ Semiconductor manufacturing ■ Industrial machinery / Construction machinery ■ Production equipment / Household electrical appliances *For more details, please refer to our catalog or feel free to contact us.

  • Analysis Services
  • Mechanical Design
  • Analysis

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Classroom support app "MetaMoJi ClassRoom"

Classroom support app "MetaMoJi ClassRoom"

Accelerating the digital transformation of schools! A learning support software compatible with Chromebook, iPad, and Windows, usable in mixed environments.

"MetaMoJi ClassRoom" is a real-time classroom support app developed for educational support in schools. It enables active learning utilizing tablets, allowing teachers to grasp each student's learning status in real-time, while also facilitating collaborative learning among students. Students can freely write in their notes as if they were writing on paper, and teachers can monitor this content on the screen. Additionally, students can submit their notes, receive grading, and access assignments all within the app. 【Features】 ■ Supports a kanji allocation table, displaying only the kanji required for the course ■ Monitoring function to check students' understanding ■ Compatible with both offline and online modes ■ Various business templates are available ■ In learning mode, it is possible to switch between group, individual, and collaborative learning within a single notebook *For more details, please download the PDF or feel free to contact us.

  • リアルタイム授業支援アプリ MetaMoJi ClassRoom (2).png
  • リアルタイム授業支援アプリ MetaMoJi ClassRoom (3).png
  • リアルタイム授業支援アプリ MetaMoJi ClassRoom (4).png
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  • リアルタイム授業支援アプリ MetaMoJi ClassRoom (6).png
  • リアルタイム授業支援アプリ MetaMoJi ClassRoom (7).png
  • リアルタイム授業支援アプリ MetaMoJi ClassRoom (8).png
  • リアルタイム授業支援アプリ MetaMoJi ClassRoom (9).png
  • リアルタイム授業支援アプリ MetaMoJi ClassRoom (10).png
  • Other network tools
  • Analysis

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High-precision analysis of the complex physicochemical properties of mRNA medicines.

High-precision analysis of the complex physicochemical properties of mRNA medicines.

High-precision evaluation of molecular weight, structure, and aggregation using light scattering detectors and LC-MS.

mRNA has been gaining attention as a modality in recent years, but evaluation methods have not yet been established, posing challenges in product development. SEC-MALS (Size Exclusion Chromatography with Multi-Angle Light Scattering detection) serves as a powerful tool for evaluating important biophysical characteristics. By utilizing SEC-MALS, it is possible to measure molecular weight, size, and three-dimensional structure with high precision, obtaining essential information for the development and optimization of mRNA therapeutics. Furthermore, when combined with LC-MS, it enables more comprehensive characterization and biophysical property analysis. The use of LC-MS for the separation and analysis of synthetic nucleic acids is effective, allowing for the simultaneous acquisition of a wide range of information, including purity, impurity content, and sequence confirmation. With the enhancement of dedicated analysis software, anyone can easily perform data analysis, regardless of their experience with LC-MS. By clicking [Submit], you are deemed to have consented to Waters' use and processing of the information provided on this site in accordance with Waters' Terms of Use and Privacy Notice. Terms of Use and Privacy Notice www.waters.com/legalandprivacy

  • Light Scattering Photometer
  • High Performance Liquid Chromatograph
  • Mass Spectrometer
  • Analysis

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Comprehensive characterization for the development and manufacturing of safe and highly effective vaccines.

Comprehensive characterization for the development and manufacturing of safe and highly effective vaccines.

Efficient evaluation of potency, safety, and stability using light scattering detectors and LC-MS.

To quickly deliver safe and highly effective vaccines to the market, thorough characterization analysis is necessary. By using light scattering detectors, a wealth of information can be obtained regarding the vaccine's size, aggregation, stability, interactions, composition, and conformation. By combining MALS (Multi-Angle Light Scattering) and DLS (Dynamic Light Scattering), information about the conformation (shape and structure) of molecules can be derived from the ratio of Rh (hydrodynamic radius) to Rg (radius of gyration). Furthermore, by combining separation techniques such as SEC (Size Exclusion Chromatography) and FFF (Field Flow Fractionation), high-resolution size and molecular weight distribution measurements can be achieved. In LC-MS, peptide mapping allows for the confirmation of primary sequences and monitoring of post-translational modifications. By clicking [Submit], you are deemed to have agreed that Waters will use and process the information provided on this site in accordance with Waters' Terms of Use and Privacy Notice. Terms of Use and Privacy Notice www.waters.com/legalandprivacy

  • Other separation and analysis equipment
  • High Performance Liquid Chromatograph
  • Chromatography Consumables
  • Analysis

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Thermal fluid analysis in the design of electronic devices.

Thermal fluid analysis in the design of electronic devices.

Streamline the design process to reduce the number of prototypes and costs!

The thermal fluid analysis by SRC allows for direct integration of 3D CAD and thermal fluid analysis software through 3D design, enabling the reflection of CFD (Computational Fluid Dynamics) results from the initial design stage. Verification of temperature fields and flow fields contributes to the efficiency of the design process related to thermal issues, reducing the number of iterations and costs. For more details, please download the catalog or contact us.

  • Embedded Board Computers
  • Other embedded systems (software and hardware)
  • Analysis

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DIAdem Big Data Analysis

DIAdem Big Data Analysis

Quickly analyze and visualize big data! ~ From "data" to "valuable knowledge" - Data analysis solutions ~

■NI DIAdem meets data management needs The more data there is, the more accurate the results can be. However, if there are multiple sources of data or insufficient documentation, it becomes difficult to identify the contents. With NI DIAdem, the necessary processes for data analysis can be efficiently achieved with a single tool.

  • others
  • Analysis

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[Musculoskeletal Analysis Case] Load Analysis of Water Bag Exercises

[Musculoskeletal Analysis Case] Load Analysis of Water Bag Exercises

Conducting musculoskeletal analysis using AnyBody to investigate the load on the trunk and upper limbs! A case study using fluid analysis results of water behavior.

This article presents a case study analyzing the effects on the body when simulating a cylindrical water bag filled with 5 kg (5 liters) of water, assuming a left and right rotational movement in front of the chest. In this case study, we conducted musculoskeletal analysis using AnyBody, taking into account the complex movement of water at that time, and investigated the load on the trunk and upper limbs. For comparison, we also examined how the load on the human body differs between liquids and solids. As a result, it was found that in the case of liquids, the load variations fluctuate randomly compared to solids. Furthermore, even with the same weight and similar movements, the load on the body changes depending on whether the object being handled is a fluid or a solid. [Contents] ■ In the case of solids ■ In the case of a water bag ■ Analysis results *Detailed information about the case can be viewed through the related links. For more details, please feel free to contact us.

  • Mechanism Analysis
  • Analysis

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[Heat Fluid Analysis Case] Airflow Analysis of Solar Panels

[Heat Fluid Analysis Case] Airflow Analysis of Solar Panels

You can observe the flow passing through the bottom of the solar panel and the vortices formed on the back of the panel!

This article introduces a case study of airflow analysis around solar panels. We arranged solar panels measuring 10×3m in three rows and subjected them to a wind speed of 10 m/s from the front. The calculations were performed in a three-dimensional, steady-state, incompressible manner, with the computational domain set to a sufficiently large area around the panels. Additionally, in this sample model, only half of one side of the solar panel was modeled. By executing calculations with varying panel spacing and angles, we were able to investigate various patterns of airflow around the panels, confirming the flow passing beneath the solar panels and the vortices forming at the back of the panels. [Contents] ■ Overview of sample calculations for solar panels ■ Analysis results *Detailed information about the case study can be viewed through the related links. For more details, please feel free to contact us.

  • Software (middle, driver, security, etc.)
  • Analysis

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[Case Study of Thermal Fluid Analysis] Cooling in a Warehouse

[Case Study of Thermal Fluid Analysis] Cooling in a Warehouse

Arranged two types of materials with different thermal conductivity and density! Analyzed the cooling process of the product.

In this article, we introduce cooling cases within a warehouse. We analyzed the cooling process of products arranged on shelves in a refrigerated warehouse. The air expelled from the air outlet cools the products and exits from the outlet, while inside the product case, two types of materials with different thermal conductivity and density are arranged. The analysis was conducted using 3D unsteady incompressible analysis. [Contents] ■ Overview ■ Analysis Results *Detailed information about the case can be viewed via the related link. For more information, please feel free to contact us.

  • Software (middle, driver, security, etc.)
  • Analysis

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[Technical Column] Multi-Color Inkjet Analysis Using OpenFOAM

[Technical Column] Multi-Color Inkjet Analysis Using OpenFOAM

OpenFOAM has a cost advantage for inkjet calculations! Let me explain the benefits!

This column explains the benefits of using OpenFOAM for inkjet analysis. OpenFOAM is an open-source thermal fluid analysis solver that can perform calculations of free surfaces using the VOF method. A free surface refers to a distinct interface formed between two immiscible fluids, with the classic example being the interface between water and air, known as the "water surface." For more details, please refer to the related links. We encourage you to read it. 【Contents】 ■ The "water surface" of mineral water and the "interface" of dressing ■ VOF - Volume of Fluid method ■ CFD analysis of inkjet ■ Multicolor inkjet analysis ■ Cost advantages *For detailed content of the column, please refer to the related links. For more information, feel free to contact us.

  • Other analyses
  • Analysis

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[Technical Column] The Difference Between Impact Analysis and Static Analysis

[Technical Column] The Difference Between Impact Analysis and Static Analysis

Automotive impact analysis is a typical dynamic analysis! A diagram of automotive side impact analysis using LS-DYNA is included!

This column explains technical information useful for CAE practice in a Q&A format. We provide clear answers to questions such as, "How do impact analysis and dynamic analysis differ from static structural analysis?" For more details, please refer to the related links. We encourage you to take a look. 【Contents】 ■Question ■Answer ■The maximum instantaneous stress cannot be captured in static analysis ■The dynamic properties of materials affect the results *For detailed content of the column, you can view it through the related links. Please feel free to contact us for more information.

  • Other analyses
  • Analysis

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[Structural Analysis Example] Collision Analysis Side Crash of a Car

[Structural Analysis Example] Collision Analysis Side Crash of a Car

For drop and impact analysis, we introduce the concept of "impact force considering the propagation of stress waves" for analytical calculations!

In considering shock analysis, there are (1) shock forces derived from absorbed energy, (2) shock forces derived from the equations of motion of rigid bodies, and (3) shock forces derived from the propagation of stress waves. (1) refers to the stress at the maximum deformation displacement when the deformable body is impacted. (2) is determined from the equilibrium of the inertial force of the colliding object (rigid body) and the reaction force from the deformable body, while (3) introduces the concept of stress waves. In 'LS-DYNA', the approach of (3) is incorporated for analysis calculations in drop and impact analysis. [Overview] ■ (1) Shock forces derived from absorbed energy - The stress is considered at the maximum deformation displacement when the deformable body is impacted. - It is assumed to occur not at the moment of impact, but when the deformation of the deformable body reaches its maximum after the impact. *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
  • Analysis

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[Structural Analysis Example] Simulation of Seismic Isolation Building Wall Collision Due to Earthquake

[Structural Analysis Example] Simulation of Seismic Isolation Building Wall Collision Due to Earthquake

It has been demonstrated that it is possible to examine the acceleration occurring in buildings and the damage to the buildings!

We will introduce a case study of seismic response analysis of a seismic isolation nuclear power plant building and retaining wall ground model, taking into account the nonlinearity of the seismic isolation devices and concrete cracking when exceeding the design seismic motion. The ground is modeled using solid elements, the building with shell elements, the internal concrete (I/C) and foundation slab with solid elements, and the seismic isolation devices with beam elements. As a result, it was observed that in a wide area around the reactor containment vessel (PCCV), the surrounding building (REB), and the retaining wall, in-plane cracking occurred in both the in-plane 1 direction and in-plane 2 direction due to the collision between the building and the retaining wall. 【Analysis Settings】 ■ After self-weight loading, seismic waves were simultaneously input in two horizontal directions and vertically (2/3 of the horizontal) at the bottom surface of the lower foundation slab. ■ The input seismic waves used were three times the Japan Architectural Center simulated seismic wave BCJ-L2. *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
  • Analysis

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[Structural Analysis Example] Impact Analysis of a Falling Weight on a Reinforced Concrete Beam

[Structural Analysis Example] Impact Analysis of a Falling Weight on a Reinforced Concrete Beam

Accurately reproduce experimental results! The concrete constitutive laws use KCC, Winfrith, and CSCM!

We conducted an impact analysis of a reinforced concrete beam using three types of concrete constitutive laws and validated the simulation accuracy by comparing it with experimental results. The concrete constitutive laws used were KCC (MAT_072R3), Winfrith (MAT_084-085), and CSCM (MAT_159). The Winfrith model allows for the visualization of crack patterns, and the analysis results confirmed the direction of the cracks. Additionally, when examining the impact analysis at an impact velocity of 9 m/s using the KCC model, it was found that the typical impact damage behavior of the beam was well represented. 【Concrete Constitutive Laws Used】 ■KCC (MAT_072R3) ■Winfrith (MAT_084-085) ■CSCM (MAT_159) *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
  • Analysis

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[Structural Analysis Example] Penetration Analysis of Reinforced Concrete Walls Using SPG

[Structural Analysis Example] Penetration Analysis of Reinforced Concrete Walls Using SPG

It is possible to analyze the fracture behavior without causing mass and energy loss due to element removal!

We present a case study of a rigid body engine colliding with a rebar-free concrete wall modeled using SPG. By using SPG, it is possible to analyze the failure behavior without causing mass and energy loss due to element deletion. With the SPG control parameters added in Ver.R10, the stability of particle behavior in brittle fracture analysis, such as collisions and penetrations of concrete materials, has improved. 【Concrete Material】 ■MAT_DAMAGE_CONCRETE_REL3 ■Density: 2.3×10-9 ton/mm3 ■Poisson's Ratio: 0.2 ■Young's Modulus: 25920 MPa ■Compressive Strength: 30 MPa ■Tensile Strength: 2.9 MPa *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
  • Analysis

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[Structural Analysis Example] Coupled Problem 2 Using Particle Method (SPH)

[Structural Analysis Example] Coupled Problem 2 Using Particle Method (SPH)

The aircraft is composed of shell elements with actual collision intensity equivalent! Introducing examples in aviation.

We will introduce the analysis of aircraft water landing behavior. The airplane is composed of shell elements that have equivalent impact strength. The number of nodes is 143,242, and the number of elements is 144,223 (Shells 8,691, SPH 135,542). In the related links below, we present the analysis results in images, so please take a look. 【Case Overview】 ■ Water is represented by SPH elements ■ The airplane is composed of shell elements that have equivalent impact strength ■ Number of nodes: 143,242 Number of elements: 144,223 (Shells 8,691, SPH 135,542) ■ Analysis time: 4.0 seconds Computation time: 34 hours 22 minutes ■ PC CPU: Core 2 Duo 64 bits×2 3.33GHz used *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
  • Analysis

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[Structural Analysis Example] Buckling Analysis of an Empty Can

[Structural Analysis Example] Buckling Analysis of an Empty Can

The initial buckling location is in the body due to the increase in strength at the bottom! Here is an analysis case using "Ansys LS-DYNA."

We will introduce an analysis example that evaluates the buckling load and buckling shape of an empty can compressed in the vertical direction. In buckling analysis, even slight errors in the initial shape can lead to buckling behavior. Even if the analysis data has the same plate thickness, basic shape, and material properties, considering initial imperfections causes the initial buckling location to change from the bottom to the body. Additionally, when considering work hardening at the bottom of the empty can, the strength of the bottom increases, resulting in the initial buckling location being at the body. In the related links below, we present the analysis results in a video, so please take a look. [Summary] - Even if the analysis data has the same plate thickness, basic shape, and material properties, considering initial imperfections causes the initial buckling location to change from the bottom to the body. - When considering work hardening at the bottom of the empty can, the strength of the bottom increases, resulting in the initial buckling location being at the body. *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
  • Analysis

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[Example of Molding Process] Press Molding of TB Logo Using JSTAMP

[Example of Molding Process] Press Molding of TB Logo Using JSTAMP

An example evaluated with a stroke speed of 10,000 mm/s and a holder load of 1,000 kN!

We will introduce a case where we analyzed the press processing of a TB logo shape and evaluated "cracks" and "wrinkles" using the FLD (Forming Limit Diagram). The history of the FLD for elements that showed a tendency to crack revealed that the processing was conducted in a state close to equal biaxial tension throughout the processing time. It is expected that the material did not flow in sufficiently, resulting in a state close to equal biaxial tension. 【Model Overview】 ■ Die stroke speed: 10000 mm/s ■ Holder load: 1000 kN *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
  • Analysis

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CAE entrusted analysis

CAE entrusted analysis

An experienced CAE engineer will carry out a series of analysis tasks.

We provide a contract analysis service where we select the appropriate solver based on the analysis theme, execute the analysis on behalf of our clients, and deliver the results report. You can also specify the analysis solver. Additionally, we can deliver the analysis model without conducting the analysis ourselves. If the standard features of commercially available analysis software cannot accommodate your needs, we also offer development services to customize the solver and incorporate the desired functionality. We can accept individual analysis tasks on a spot basis, as well as provide outsourcing services for a series of analysis tasks that arise in a project. If you have requests for service formats other than these, we will do our best to accommodate them, so please feel free to consult with us.

  • Contract Analysis
  • Analysis

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[Analysis Case] Stirring Analysis Considering Hardening Reaction

[Analysis Case] Stirring Analysis Considering Hardening Reaction

The molding of resin products requires an important stirring process to uniformly mix the materials! Here we introduce examples of stirring analysis.

In the molding process of resin products, the stirring process to uniformly mix multiple materials is important for both molding defects and quality. In the case of thermosetting resin materials (base agent and hardener), calculations considering the spread of each material and the curing reaction during stirring are necessary. Therefore, we customized the interFoam solver and developed a solver that takes into account the concentration changes of the base agent and hardener during stirring, as well as the curing reaction. 【Case Overview】 ■ Confirm the distribution and progress of the reaction rate in the stirring tank ■ Identify areas where the base agent tends to remain without reacting ■ Can be used to examine ideal stirring conditions such as wing shape, rotation speed, and the presence or absence of baffles *For more details, please refer to the related links or feel free to contact us.

  • Resin processing machine
  • Analysis

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Elastoplastic analysis of arbitrary shaped solid frames SNAP

Elastoplastic analysis of arbitrary shaped solid frames SNAP

Faster and more accurately. Analyzing the behavior of complex buildings.

SNAP performs member-level elastic-plastic dynamic response analysis, stress analysis, and incremental analysis for structures of arbitrary shapes.

  • Other CAD related software
  • Structural Analysis
  • Analysis

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SOLIDWORKS Flow Simulation Heat Conduction Analysis

SOLIDWORKS Flow Simulation Heat Conduction Analysis

White paper available!! "Heat conduction analysis that cannot be learned in engineering school"

The use of fluid dynamics (CFD) is no longer limited to experts. A new class of CFD analysis software called "concurrent CFD" has proven to be highly effective for thermal conduction analysis, enabling mechanical engineers to make key decisions quickly on their workstations without the need for CFD specialists. This intuitive process, integrated into a 3D CAD environment, allows designers to optimize products during the design phase, reducing manufacturing costs across a wide range of mechanical design and systems. *For more details, please refer to the materials. Feel free to contact us as well. ▼ The white paper can be downloaded from the link below ▼

  • 3D CAD
  • Other CAD
  • Other CAD related software
  • Analysis

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