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Analysis software Product List

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

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.

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  • Structural Analysis

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Low-cost resin flow analysis software for designers ASU/MOLD-EX STD

Low-cost resin flow analysis software for designers ASU/MOLD-EX STD

The new "ASU/MOLD-EX STD," a cost-effective version from the high-speed, high-precision resin flow analysis software ASU/MOLD series, has been launched!

The affordable ASU/MOLD-EX STD has newly arrived in the popular resin flow analysis software series "ASU/MOLD." It maintains the calculation speed and accuracy of the conventional "ASU/MOLD" series while allowing designers to choose the necessary features. This product is priced competitively. Anyone can easily and intuitively analyze filling behavior and product warpage efficiently. It enables the consideration and countermeasures for potential issues, significantly reducing rework and modifications.

  • simulator

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ASU/MOLD series resin flow analysis software

ASU/MOLD series resin flow analysis software

[New Features and Practical Examples of Actual Machine Comparisons] 3D Resin Injection Molding Software that Effectively Addresses Warping and Shrinkage at a Practical Level.

"ASU/MOLD" is a resin injection molding simulation software that analyzes the resin injection molding process with high speed and precision, leading to solutions for various challenges that arise in mold design and molding sites. It visualizes processes from filling to warpage, shrinkage analysis, and mold cooling using 3D solids, delivering results with high accuracy in a short time. It is utilized in various stages from product design to mold manufacturing and molding sites. We offer a lineup that includes "ASU/MOLD-EX" and "ASU/MOLD-EX Pro," which incorporates features such as mold temperature analysis and valve gate functionality. 【2023 Edition EX Pro New Features】 - Mesh density function - Gas vent - High-speed warpage analysis - Rendering function 【Features】 - High-precision solver validated by actual machine testing - Analysis using 3D solid elements with minimal geometric errors - Shortened time due to high-speed and robust computational capabilities - Easy operation with dedicated automatic mesher and process setting functions - Reduction of development time, cost savings, and quality improvement Please check from the download.

  • Other analyses

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General-purpose structural analysis software "ASU/ISTR" for structure, heat transfer, and vibration.

General-purpose structural analysis software "ASU/ISTR" for structure, heat transfer, and vibration.

A dedicated pre/post-processor that supports the practical use of the free solver FrontISTR, capable of large-scale analysis of various engineering problems such as structural, heat transfer, and vibration analysis.

ASU/ISTR has packaged the free general-purpose structural analysis software FrontISTR, developed by FrontISTR Commons (Representative Director: Professor Hiroshi Okuda, The University of Tokyo), into a Windows version with pre- and post-processing capabilities for easy use by anyone. - Covers the main features of FrontISTR - Equipped with a robust automatic solid mesh generation function that supports multi-part models, allowing for immediate analysis setup and execution once CAD data is provided. - The open-source solver can be used commercially at no cost, and license fees do not increase even for large-scale problems. - A basic material database is provided, supporting isotropic and orthotropic materials. - We also offer customization development of pre- and post-processing to fit your unique workflow. - Utilizes our GUI platform ASU/GROOVE, which has over 140 successful implementations. - Our company has members who are part of the FrontISTR solver development team, capable of addressing advanced technical requests, such as adding unique calculation routines to the solver.

  • Structural Analysis
  • Stress Analysis
  • simulator

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[Data] Analysis of Deformation and Stress Behavior in Die-Cast Products Molds

[Data] Analysis of Deformation and Stress Behavior in Die-Cast Products Molds

Technical data presentation! Problems that cannot be solved with general-purpose code using the shadow method can be analyzed stably.

In this document, we report a case study where the engine block was selected as a representative die-cast product, and the deformation and stress behavior after filling the mold with molten metal were analyzed using 'ASU/V-Struct'. We present the analysis model, which includes the shape of the engine block product being analyzed and the analysis conditions in the case study, as well as the thermal shrinkage analysis results of the ADC10 filled in the mold. This software is being continuously developed as a powerful tool to support designers in increasingly complex processing processes. [Contents] ■ Introduction ■ Analysis Model ■ Analysis Results ■ Conclusion *For more details, please download the PDF or feel free to contact us.

  • Stress Analysis
  • Structural Analysis

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[Data] ASU/V-STRUCT Rivet Analysis

[Data] ASU/V-STRUCT Rivet Analysis

Presentation of technical data! Introducing examples of software suitable for structural analysis considering deformation contact.

In this document, we introduce a case study of the contact analysis of three deformable bodies, specifically focusing on "crimping of hoses." In molding that combines multiple parts, it becomes necessary to calculate the contact between the deformable bodies in order to observe the deformations of the various parts. Our "ASU/V-Struct" is proficient in analyzing such deformable body contacts and can stably solve problems that do not converge with conventional static implicit methods. We have included an overview and analysis examples related to crimping, along with diagrams, making it easy to reference during the consideration of implementation. We encourage you to take a look. [Contents] ■ Introduction ■ Overview ■ Analysis Results ■ Conclusion *For more details, please download the PDF or feel free to contact us.

  • Structural Analysis

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Introduction to Vacuum Forming Analysis using ASU/V-Struct

Introduction to Vacuum Forming Analysis using ASU/V-Struct

Technical materials presented! 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'. This product can stably compute coupled analyses of structural analysis and heat conduction analysis that involve nonlinearities (material, geometry, contact), which are difficult to handle with general-purpose CAE software. It allows for the analysis of conditions during vacuum forming, enabling the investigation of molding conditions and defects in advance. Examples of analyses performed on vacuum-formed resin sheets are included, making it 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.

  • Structural Analysis
  • Other analyses

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[CAE Solution Case] Visualization of Vacuum/Pressure Forming

[CAE Solution Case] Visualization of Vacuum/Pressure Forming

Technical data presentation in progress! Achieving reduction of rework through ASU/V-Struct analysis.

We would like to introduce a CAE solution case using the structural analysis software 'ASU/V-Struct' for visualizing vacuum/pressure forming. In vacuum/pressure forming, heated resin sheets are pressed against molds for shaping. As a result, variations in the thickness of the molded products are likely to occur, and if the thickness becomes extremely thin, issues such as insufficient strength arise, leading to defective products. Additionally, defects such as wrinkles on the molded products can occur. If such problems can be identified and addressed in advance through analysis, it can reduce rework related to defects and help control labor costs. We provide detailed information about our products and services in a PDF document, so please take a look. 【Case Overview (Partial)】 ■Challenges - Unable to predict the thickness of the molded products - Want to understand how the material adheres to the mold - Defective products have emerged, and we want to investigate/improve *For more details, please download the PDF or feel free to contact us.

  • Structural Analysis
  • simulator

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[ASU/V-Struct Implementation Case] Kawanishi Industrial Co., Ltd.

[ASU/V-Struct Implementation Case] Kawanishi Industrial Co., Ltd.

Technical data presentation in progress! Practical application of simulation technology for improving the automotive headlining molding process.

We would like to introduce a case study of the implementation of the structural analysis software 'ASU/V-Struct' at Kawanishi Industrial Co., Ltd., a global comprehensive manufacturer. At the company, due to the viscoelastic nature of the headlining (ceiling material) molding, it was difficult to make predictions through simulations, resulting in significant time and costs for evaluations using actual parts, which posed challenges to development speed. After the implementation, factors related to moldability were identified, and pre-simulation evaluations became possible, leading to a significant improvement in production stability, with almost no need for rework after molding. Details of the expected effects of CAE and the development overview can be found in the PDF document, so please take a look. [Challenges] ■ Significant time and costs incurred for evaluations using actual parts ■ Increased demand for further improvement in development speed *For more details, please download the PDF or feel free to contact us.

  • Structural Analysis
  • simulator

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[CAE Solution Case] Resin Sheet Press Molding

[CAE Solution Case] Resin Sheet Press Molding

Presenting technical data! Introducing an example of seat press forming analysis modeled after automotive headlining.

We would like to introduce a CAE solution case using the structural analysis software 'ASU/V-Struct' for resin sheet press molding. In automotive interiors, such as headliners, there are many instances where composite materials centered around resin are formed by pressing. During these molding processes, similar to metal pressing, defects such as cracks and wrinkles can occur, and adjusting molds and molding conditions through trial and error can require a significant amount of time and effort. By using simulations, it is possible to predict molding defects and shorten development periods. For more detailed case information and about our products and services, please refer to the PDF materials. [Case Overview (Partial)] ■Challenges - We would like to consider measures for molding defects such as cracks and wrinkles. - We would like to explore methods for securing the sheet during pressing. - We would like to investigate the deformation of the sheet and the timing of contact with the mold. *For more details, please download the PDF or feel free to contact us.

  • Structural Analysis
  • simulator

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