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ASTOM R&D" is a comprehensive catalog of the Advanced Dynamics Simulation Research Institute, which strongly supports the IT and digital engineering transformation of various processes in manufacturing, such as research and development, production technology, and design. Our company contributes to the innovation of the manufacturing sector and the creation of a prosperous society through CAE technology. The materials mainly introduce our businesses related to "contract development and analysis services" and "product sales." [Contents Included *Excerpt] ■ The era is moving towards total engineering ■ We support all areas of manufacturing ■ We realize business reform through IT ■ We achieve large-scale analysis ■ We realize "visualization
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Input of actual processes is possible. The use of static explicit methods leads to high-precision analysis results, improving the accuracy and reliability of estimates, which in turn expands orders.
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We will train the AI by pairing sensor and measurement data with the results of good or defective product judgments. After training, when sensor and measurement data are provided, the AI will perform real-time good or defective judgments. It can also be utilized as a system for storing and managing diverse measurement data. For more detailed information, please download the catalog or contact us.
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The "ASU/WELD" series visualizes the effects of welding thermal distortion in advance and guides the welding process, enabling reductions in prototype costs and shortened delivery times. ■ Product Introduction - "ASU/WELD-Express," a software for analyzing inherent distortion in a short time. - "ASU/WELD-Master," a thermal elastic-plastic analysis software capable of detailed evaluation of welding deformation and residual stress, among others. ■ Challenges and Issues Faced by Welding Engineers - Shortening delivery times and reducing man-hours in the welding process. - Product dimension defects due to welding deformation. - Decreased structural strength due to residual stress. This is recommended for those facing the above challenges. For detailed product information, please download the catalog or contact us.
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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 material. 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 is also applicable to other analyses such as mold deflection, clamping, vacuum forming, and adhesion analysis.
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ASU/ISTR has packaged the free general-purpose structural analysis software FrontISTR, developed by FrontISTR Commons (Representative Director: Professor Hiroshi Okuda, University of Tokyo), into a Windows version with pre- and post-processing capabilities for easy use by anyone. - Covers the main functions of FrontISTR - Equipped with a robust automatic solid mesh generation feature that supports multi-part models, allowing for immediate analysis setup and execution if CAD data is provided. - The open-source solver can be used commercially free of charge, and license costs do not increase even for large-scale problems. - A basic material database is provided, supporting isotropic and orthotropic materials. - Custom pre- and post-processing development tailored to the customer's unique workflow is also available. - Utilizes our GUI platform ASU/GROOVE, which has been implemented by over 140 companies. - 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.
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Real-time level predictions of time-history flow paths in resin injection molding have become possible through our unique calculation algorithm, which focuses on the effects of product shape, injection position, and injection volume ratio. In addition to initial scheme considerations, seamless collaboration with ASU/MOLD allows for rapid narrowing down of cases for detailed analysis, thereby reducing lead times.
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Real-time level predictions of time-history flow paths in resin injection molding have become possible through our unique calculation algorithm, focusing on the effects of product shape, injection position, and injection volume ratio. In addition to initial plan considerations, seamless collaboration with ASU/MOLD allows for rapid narrowing down of cases for detailed analysis, thereby reducing lead times.
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The "ASU/WELD" series visualizes the effects of welding thermal distortion in advance and guides the welding process, enabling reductions in prototype costs and shortened delivery times. ■ Product Introduction - "ASU/WELD-Express," a software for analyzing inherent distortion in a short time. - "ASU/WELD-Master," a thermal elastic-plastic analysis software capable of detailed evaluation of welding deformation and residual stress, among others. ■ Challenges and Issues Faced by Welding Engineers - Shortening delivery times and reducing man-hours in the welding process. - Product dimensional defects due to welding distortion. - Decreased structural strength due to residual stress. This is recommended for those facing the above challenges. For detailed product information and examples of improvements in addressing these issues, please download the catalog or contact us.
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A heat fluid simulation support tool for beginners and experienced users alike. Maximize the power of OpenFOAM. OpenFOAM is an open-source heat fluid simulation software equipped with a wide range of features that are on par with or exceed those of general-purpose software. ASU/Pre-FOAM is a dedicated tool for using OpenFOAM simply, providing a seamless user experience.
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Fuel Cell Vehicles (FCVs) are expected to provide clean and sustainable mobility with zero emissions, enabling rapid refueling and long-distance travel through the use of hydrogen. The tanks designed to safely carry high-pressure hydrogen are extremely important components for FCVs, but overcoming many challenging issues such as weight reduction and cost reduction is necessary for widespread adoption. ASU/FrontCOMP is an analytical tool developed for the design of high-pressure containers for FCVs. ■ To reproduce the complex stress state within CFRP products, a mesoscale model that directly models the fiber bundle shape is required. ■ A 3D analysis model of the CFRP layer modeled from the liner and fiber bundles of a Type-IV pressure vessel will be created within practical timeframes. ■ Detailed analysis using a fiber bundle embedding model and pseudo-mesoscale analysis using a fiber bundle mapped model are possible. An FEM analysis model that reproduces the design requirements of CFRP pressure vessels can be easily generated. The fiber bundle mapped model also supports input and output in FrontISTR (free) format, reducing the licensing costs for large-scale computation. In version 6, parallelization of the model generation process has been implemented, significantly shortening the generation time.
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This is the "ASU/V-Struct Release Analysis Edition," customized specifically for release analysis during resin injection molding. It is software designed to identify the causes of release defects during injection molding and implement preventive measures in advance, thereby improving the quality of molded products and reducing the costs associated with mold design changes and modifications. - It enables the prediction of sticking and cavity capture in advance, identifying areas that will be captured by the cavity based on displacement distribution and nodal force distribution. - It allows for the prediction of whitening and warping due to protrusion arrangement balance, identifying areas of deformation in molded products based on the evaluation of protrusion loads for each protrusion. - It can accommodate inclined cores (upward and downward) and diagonal movement of slide units. - It enables high-precision predictions that carry over the temperature distribution during injection molding (using ASU/MOLD).
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Free membership registrationASU/PM-Lifetime is a system designed to efficiently evaluate the reliability of power module implementations, providing strong support for material development and module design. This system allows for the evaluation of the lifespan of bonding materials and wire bonding during temperature cycle/power cycle testing, as well as the impact of factors such as module dimensions and material properties on implementation reliability. With a user interface specifically tailored for power module evaluation, it is user-friendly and enables the assessment of power modules without requiring specialized knowledge in simulation. 【Features】 ■ Lifespan evaluation of power modules By inputting the individual characteristics of the implementation materials, the lifespan under implementation conditions for the power module can be predicted. ■ Goal setting in implementation material design A statistical evaluation of numerous material parameter factors supports the goal setting for material design. ■ Utilization in industry-academia collaboration projects The results of the industry-academia collaboration project (KAMOME A-PJ) for implementation material development have been incorporated into the software as know-how.
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In the current press forming simulation, the mold is treated as a rigid body, and deflection is not taken into account. However, during actual press processing, especially when forming high-strength steel sheets, a very large load is applied, resulting in mold deflection. This causes variations in the clearance between the upper and lower molds, leading to differences in contact and surface pressure on the workpiece depending on the location. Additionally, the amount of deflection varies based on the structure of the mold. To reproduce the phenomena of actual press processing in press forming simulation, an analysis that considers mold deflection is necessary. We will introduce a case of forming simulation that takes mold deflection into account using the open-source structural analysis software FrontISTR for mold deformation and our solver ASU/P-form for forming through weakly coupled analysis. ASU/ISTR is a general-purpose pre-post software developed by our company that is compatible with FrontISTR. By utilizing the deflection weakly coupled setting function of ASU/ISTR, we can quickly incorporate the analysis results from ASU/P-form and automatically set the conditions. Moreover, it allows for easy analysis setup and execution on a Windows PC. FrontISTR excels in parallel computing, and there are no licensing costs even when using a PC with a large number of cores.
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The affordable ASU/MOLD-EX STD has newly launched 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 functions. This product is priced competitively. Anyone can easily and intuitively analyze filling behavior and product warpage efficiently. It enables consideration and countermeasures for issues, significantly reducing rework and modifications.
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"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 venting - 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 processing time through high-speed and robust computing 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.
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We provide a comprehensive management system for engineering information such as design information, test results, measurement data, and simulation information (input information analysis results) in the manufacturing industry. We offer multifaceted analytical functions to consider improvement proposals based on accumulated defect information. We also support customized development according to management targets and data. For more details, please download the catalog or contact us.
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The new version of the 2022 press forming simulation software "ASU/P-form" features a solver that employs a "static explicit method" and a user-friendly pre-post interface. Developed in Japan, where press processing technology is advanced, "ASU/P-form" incorporates a wealth of know-how and combines ease of use with high-precision analysis, making it a user-friendly CAE tool for anyone involved in press processing, from mold design engineers to on-site manufacturing technicians and production staff. 【Features】 ■ Solver using "static explicit method" ■ User-friendly interface ■ Ease of use and high-precision analysis *For detailed product information, please download the catalog or contact us.
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The press forming simulation software "ASU/P-form" consists of a solver that employs a "static explicit method" and a user-friendly pre-post interface. Developed in Japan, where press processing technology is advanced, "ASU/P-form" incorporates a wealth of know-how and combines ease of use with high-precision analysis, making it a CAE tool that is approachable for anyone involved in press processing, from mold design engineers to on-site manufacturing technicians and production personnel. 【Features】 ■ Solver employing a "static explicit method" ■ User-friendly interface ■ Ease of use and high-precision analysis
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Are you involved in CAE and facing these concerns? - Parameter studies take too much time - I want to speed up routine CAE work - The calculation speed is insufficient for real-time CAE use The CAE Proxy Solution can solve these problems! The CAE Proxy Solution is a consulting service that uses deep learning to substitute simulations.
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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 molded through 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.
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We would like to introduce a CAE solution case using the structural analysis software 'ASU/V-Struct' for the visualization of vacuum/pressure forming. In vacuum/pressure forming, heated resin sheets are molded by adhering them closely to a mold. As a result, variations in the thickness of the molded products can easily occur, and if the thickness becomes extremely thin, issues such as insufficient strength arise, leading to defective products. Additionally, defects such as wrinkles can occur in the molded products. 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 Summary (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.
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This document introduces the vacuum forming analysis using the heat transfer and structural coupling analysis software 'ASU/V-Struct'. Our product can stably compute coupled analyses of structural analysis and heat conduction analysis that involve nonlinearity (material, geometry, contact), which is difficult with general-purpose CAE software. It allows for the analysis of conditions during vacuum forming, enabling the investigation of forming conditions and defects in advance. We have included examples of analyses conducted on vacuum-formed resin sheets, which are 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.
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In this document, we introduce a case study of the contact analysis of three deformed bodies, specifically focusing on "crimping of hoses." In molding that combines multiple parts, it becomes necessary to calculate the contact between the deformed bodies in order to observe the deformation of the various parts. Our "ASU/V-Struct" is skilled in analyzing such deformed body contacts and can stably solve problems that do not converge with conventional static implicit methods. We have included an overview and analysis examples explaining crimping, along with illustrations, 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.
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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 are available 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.
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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'. The analysis model 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.
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【~Prospects of Welding CAE and User Cases~ ASU/WELD Latest Technology Seminar】 Date: November 21, 2025 (Friday) Doors open at 12:45, Starts at 13:00 Location: TKP Shinagawa Conference Center 9th Floor, Hall 9A + 9B Overview: Keynote speech by Professor Emeritus Eiichi Murakawa from Osaka University, User case of ASU/WELD by Mr. Takafumi Kato from Yutaka Giken Co., Ltd., Introduction of the latest features of welding strain analysis from our company 13:00–13:10 Opening remarks 13:10–14:00 Keynote speech by Professor Emeritus Eiichi Murakawa, Osaka University 14:00–14:35 ASU/WELD User Case by Mr. Takafumi Kato, Yutaka Giken Co., Ltd. 14:35–15:10 Introduction of the latest features of ASU/WELD-Express for welding strain analysis 15:10–15:25 Break 15:25–16:15 Special lecture by Mr. Yasunori Shibata, Subaru Corporation Register here: https://docs.google.com/forms/d/e/1FAIpQLSdQ3CUAXO7ktUD0RMRMTWXUsXGYFO3aSzYJJTiTzf25ZoQ-dA/viewform
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ASU/ISTR is a dedicated pre-post integrated software for FrontISTR that efficiently performs analyses related to strength, vibration, and heat required in the automotive and transportation equipment fields. It utilizes the FrontISTR solver, which can be used for free for commercial purposes, and can be utilized for large-scale models without additional costs. 【Features】 - Supports multi-component models such as body, suspension, and engine auxiliaries - High-quality solid automatic mesh generation that is resistant to distortion even with complex shapes - Standard inclusion of material data necessary for weight reduction considerations (isotropic/orthotropic) - Significantly reduces preparation time from CAD input to analysis - Supports GUI customization to align with your own design flow - Utilizes the ASU/GROOVE platform adopted by over 140 companies - Members of the FrontISTR development team are available, allowing for the addition of unique routines for automotive applications.
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ASU/ISTR is a Windows-based pre-post integrated package that allows for strength evaluation, thermal deformation analysis, and vibration analysis required for industrial machinery and production equipment to be conducted in a single environment. It standardly employs FrontISTR, which can stably compute even for large models and multi-part models. 【Features】 - Optimal for strength analysis of large equipment, frames, and structural frameworks - Automatic solid mesh generation function that can stably produce even for multi-part models - No increase in licensing costs for large-scale analyses due to the free solver - Flexibly addresses device-specific issues such as thermal loads and deformation of mechanical parts - Customizable pre-post functions to align with the operations of equipment manufacturers - Utilizes the well-established ASU/GROOVE as its platform - Supports the addition of advanced calculation logic by solver development team members
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ASU/ISTR is a dedicated pre-post integrated environment for FrontISTR that can perform a wide range of analyses essential for electronic device design, such as thermal distribution analysis, enclosure rigidity evaluation, and vibration characteristic confirmation. It streamlines the preparation for analysis from CAD data, allowing for smooth detailed evaluation of electronic enclosures. 【Features】 - Supports composite model analysis of substrates, enclosures, and internal components - A workflow that allows for consistent thermal and structural analysis - Automatic mesh generation that adapts to the complex part segmentation of electronic devices - A solver available for free commercial use, enabling high-density models without additional costs - A basic material database that handles isotropic and anisotropic materials - GUI functions can be added to align with in-house analysis methods - FrontISTR development members can respond to advanced needs such as adding special routines
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ASU/ISTR is a dedicated pre-post integrated software for FrontISTR that can handle the stringent analysis conditions required for high-rigidity structures, thermal variation environments, and vibration impacts in aircraft and spacecraft. It enables stable modeling and calculations even for complex composite structures and multi-part assemblies. 【Features】 - Supports high-precision strength analysis for airframe, wing structures, support frames, etc. - Capable of complex analyses unique to aerospace, such as thermal loads and vibration environments. - Generates high-quality automatic meshes even for complex curved surfaces and thin-walled structures. - Large-scale models can be computed at no additional cost using a free solver. - Suitable for composite material analysis as it can handle orthotropic materials. - Customizable user interface tailored to aerospace workflows. - FrontISTR developers can respond to technical requests and implement unique analysis logic.
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ASU/ISTR is a pre-post integrated software for FrontISTR that can be flexibly utilized according to the diverse research themes of universities and research institutions. It allows for the simple construction of a research-oriented CAE environment, from basic strength analysis to material testing and verification of new methods. 【Features】 - A general-purpose CAE platform that can be used across various fields of analysis - Easy expansion of research scale with a solver available for free commercial use - GUI-based completion from mesh generation to computation to visualization - Customizable operation screens and menus according to research content - Support for adding unique routines for new materials and new methods - Windows version that is easy to implement as a common environment for research labs - Stable operability and expandability based on ASU/GROOVE
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ASU/ISTR is a dedicated pre-post integrated environment for FrontISTR that allows for efficient structural and thermal analysis of battery cells, packs, and energy devices. It is designed to easily model phenomena specific to batteries, such as thermal response and pressure loads. 【Features】 - Supports analysis of composite structures such as cells, modules, and housings - Capable of performing essential calculations for battery design, including temperature distribution, stress, and expansion - Automatically generates high-quality solid meshes even for multilayer structures - Large-scale thermal-structural coupled analysis can be performed with a free solver at zero cost - Easy configuration of anisotropic materials and multilayer materials - Additional pre-post functions can be added according to the evaluation flow - FrontISTR development team implements special routines to meet advanced needs
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In the aerospace industry, reducing the weight of aircraft is an important challenge. Weight reduction leads to improved fuel efficiency, extended range, and increased payload capacity, which are essential for enhancing competitiveness. In recent years, the electrification of aircraft and spacecraft has progressed, necessitating the incorporation of high-performance batteries. To maximize battery performance, it is necessary to accurately analyze internal stresses, temperature changes, and structural stability within the cells, and to carry out optimal design. ASU/ISTR is a dedicated pre-post integrated environment for FrontISTR that efficiently performs structural and thermal analysis of battery cells, packs, and energy devices. 【Usage Scenarios】 * Battery design for aircraft and spacecraft * Structural optimization aimed at weight reduction * Design of electronic devices requiring thermal management 【Benefits of Implementation】 * Improved battery performance * Reduced design time * Cost savings
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In the home appliance industry, ensuring product safety is the top priority. Particularly for home appliances equipped with lithium-ion batteries, thermal runaway and structural failure of the batteries can lead to serious accidents. ASU/ISTR enables the evaluation of these risks during the battery design phase and allows for analyses to enhance safety. 【Application Scenarios】 * Battery pack design * Structural analysis of energy devices * Impact assessment due to temperature changes 【Benefits of Implementation】 * Improved battery safety * Enhanced product reliability * Streamlined design processes
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In the electronics industry, as products become smaller and more high-performance, heat dissipation measures have become an important issue. In particular, batteries are prone to heating, raising concerns about performance degradation and safety issues due to temperature increases. ASU/ISTR analyzes the temperature distribution, stress, and structural stability within batteries, contributing to the resolution of these challenges. 【Usage Scenarios】 - Thermal design of battery packs - Heat dissipation design of electronic device enclosures - Temperature management of energy equipment 【Benefits of Implementation】 - Improved battery performance - Enhanced product reliability - Reduced design time
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In the medical device industry, there is a trend towards miniaturization of devices, which requires optimization of battery performance in limited spaces. Particularly for medical devices exposed to temperature changes and vibrations, the reliability and safety of batteries are crucial. Inadequate design can lead to malfunctions of the device and pose risks to patients. ASU/ISTR supports the design of miniaturized medical devices by addressing necessary analyses for battery design, such as internal stress, temperature changes, and structural stability of battery cells. 【Application Scenarios】 - Battery design for miniaturized medical devices - Analysis of battery thermal response and pressure loads - Structural analysis of battery cells, modules, and enclosures 【Benefits of Implementation】 - Improved battery reliability - Reduced design time - Enhanced product safety
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In the railway industry, the reliability of battery systems is extremely important for safety and stable operations. Particularly in environments exposed to temperature changes and vibrations, the degradation or failure of battery performance can have serious impacts on operations. ASU/ISTR is a dedicated pre-post integrated environment for FrontISTR that efficiently conducts structural and thermal analysis of battery cells, packs, and energy devices. It models battery-specific phenomena and contributes to improving reliability. 【Application Scenarios】 - Design of batteries for railway vehicles - Analysis of emergency power supply systems - Battery life prediction 【Effects of Implementation】 - Improved battery durability - Enhanced safety - Reduced maintenance costs
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In the shipping industry, energy conservation is strongly demanded to improve fuel efficiency and reduce environmental impact. Particularly, as the introduction of electric propulsion systems and energy storage systems progresses, ensuring the performance and safety of batteries is crucial. Accurately predicting internal stresses and temperature changes during the battery design phase and optimizing the design is essential for enhancing system efficiency and safety. ASU/ISTR is a dedicated pre-post integrated environment for FrontISTR that efficiently conducts structural and thermal analysis of battery cells, packs, and energy devices. It also facilitates the modeling of battery-specific phenomena, contributing to energy conservation in ships. 【Usage Scenarios】 * Battery design for electric propulsion systems * Thermal analysis of energy storage systems * Structural analysis of battery packs 【Benefits of Implementation】 * Improved battery performance and extended lifespan * Enhanced system safety * Achievement of energy conservation
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In the drone industry, there is always a demand for extended flight times. Battery performance is directly linked to flight time, making accurate analysis during the battery design phase crucial. By accurately understanding the internal stresses and temperature changes within the battery, optimal designs can be achieved to maximize flight time. ASU/ISTR is a dedicated pre-post integrated environment for FrontISTR that efficiently conducts structural and thermal analysis of battery cells, packs, and energy devices. 【Use Cases】 * Battery design for drones * Thermal management of battery packs * Structural analysis of energy devices 【Benefits of Implementation】 * Extended flight time through optimization of battery performance * Improved safety of batteries * Streamlined design processes
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In the mobile phone industry, extending the lifespan of products is an important challenge. The degradation of battery performance significantly affects product lifespan, making accurate analysis at the battery design stage essential. It is particularly important to accurately understand changes in internal stress due to temperature variations and charge/discharge cycles in order to achieve optimal design. ASU/ISTR supports the necessary analyses for battery design, such as internal stress, temperature changes, and structural stability, contributing to the longevity of mobile phones. 【Application Scenarios】 - Design of battery cells - Design of battery packs - Design of energy devices 【Effects of Implementation】 - Improved battery durability - Enhanced product reliability - Reduced design time
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The "P type Control Console" is a P-type measurement and control device of the Amsler type (pendulum type) that excels in both reliability and durability. Control of the test load can be easily performed by operating the valves on the left and right. The load range is standard at 3 to 4 stages, with the option to extend to 5 stages (depending on the connected testing machine). Equipped with a large scale dial with illumination, it can be installed in various locations. If it is hydraulic-driven, it can be connected to most testing machines. *For more details, please refer to the PDF materials or feel free to contact us.
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The "YU-S5 Series" is a hydraulic universal testing machine that allows for easy attachment of tensile test specimens using a front-opening hydraulic gripping device. It primarily conducts tensile, compression, and bending tests on various materials. By attaching test jigs and temperature-controlled chambers (both available as options), it can accommodate a wide range of tests. The test force is very easy to read due to analog and digital displays, and the automatic range switching function allows for automatic switching to a higher range during testing. Automatic control is performed in accordance with the "JIS Z2241" standard for tensile testing of metallic materials. **Features** - Easy attachment of tensile test specimens using a front-opening hydraulic gripping device - Accommodates various tests by attaching test jigs and temperature-controlled chambers (both available as options) - Test force is very easy to read due to analog and digital displays - Automatic range switching function allows for automatic switching to a higher range during testing - Automatic control in accordance with the "JIS Z2241" standard for tensile testing of metallic materials *For more details, please refer to the PDF document or feel free to contact us.*
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The "HAC-2000SIV" is a high-strength compression testing machine that allows test forces to be read in both analog and digital formats using a large-scale measurement control device. To accommodate high-strength concrete compression tests, the frame rigidity has been enhanced, and it employs an electric hydraulic servo system with automatic load control via a microcomputer. It is also possible to connect to data processing devices through external output, allowing the testing machine to be operated from the computer side. 【Features】 ■ High-rigidity frame suitable for high-strength concrete compression tests ■ Standard equipped with a test control mode compliant with JIS standards through automatic testing Complies with the JIS A 1108 method for testing the compressive strength of concrete. ■ Test force display via analog gauge and digital display ■ Automatic zero adjustment function with auto setup button ■ Safe testing with automatic range switching for higher capacity *For more details, please refer to the PDF materials or feel free to contact us.
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This is a hydraulic compression testing machine that can perform automatic tests under pre-set conditions due to the adoption of servo control. It features automatic load control in accordance with the compression strength testing method for concrete as per JIS A 1108, as well as explosion prevention functions and a memory function for test conditions, all controlled by a computer. The test force display is available in both analog and digital formats, and models with a pointer are also produced.
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