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CAE for Energy Analysis Product List

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[For mobile phones] CAE ASU/ISTR for battery and energy analysis

[For mobile phones] CAE ASU/ISTR for battery and energy analysis

Supports analyses necessary for battery design, such as internal stress and temperature changes within the cell.

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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[For Railways] CAE ASU/ISTR for Battery and Energy Analysis

[For Railways] CAE ASU/ISTR for Battery and Energy Analysis

Supports analyses necessary for battery design, such as internal stress, temperature changes, and structural stability.

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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CAE ASU/ISTR for Battery and Energy Analysis for Home Appliances

CAE ASU/ISTR for Battery and Energy Analysis for Home Appliances

Supports analyses necessary for battery design, such as internal stress, temperature changes, and structural stability.

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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CAE ASU/ISTR for Battery and Energy Analysis

CAE ASU/ISTR for Battery and Energy Analysis

Supports analyses necessary for battery design, such as internal stress, temperature changes, and structural stability.

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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CAE ASU/ISTR for Battery and Energy Analysis for Medical Devices

CAE ASU/ISTR for Battery and Energy Analysis for Medical Devices

Supports analyses necessary for battery design, such as internal stress and temperature changes in the cell.

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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CAE ASU/ISTR for Battery and Energy Analysis for Electronic Devices

CAE ASU/ISTR for Battery and Energy Analysis for Electronic Devices

Supports analyses necessary for battery design, such as internal stress and temperature changes within the cell.

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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Aerospace Battery and Energy Analysis CAE ASU/ISTR

Aerospace Battery and Energy Analysis CAE ASU/ISTR

Supports analyses necessary for battery design, such as internal stress, temperature changes, and structural stability.

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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