Finite Element Method Thermal Conduction Analysis Software (Simulator)
2D axisymmetric and 3D heat conduction analysis simulator using the finite element method ■□■Features■□■ ■ Since it is integrated with the PHOTO series dedicated pre- and post-processing, data creation, analysis, and result processing can be performed as a single operation. ■ It is integrated with other PHOTO series modules, allowing for easy coupled analysis, such as determining temperature distribution from heat generation obtained through electromagnetic field analysis. ■ It uses the ICCG method, enabling fast calculations and analysis on a personal computer. ■ Since it employs the finite element method, the solutions are stable, making it safe for beginners to use. ■ Coupled calculations with stress analysis and fluid analysis are easy to perform.
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basic information
■Linear and nonlinear thermal conductivity can be used. ■Anisotropic linear thermal conductivity can be used. ■Linear/nonlinear analysis of specific heat can be performed. ■A reference temperature can be set. ■The sliding interface allows for the handling of mutually moving objects. ■Conditions for constant temperature boundaries, adiabatic boundaries, and heat transfer boundaries can be set. ■Nonlinear analysis with temperature-dependent thermal conductivity can be performed. ■Temperature dependence of specific heat can be addressed. ■Heat dissipation due to radiation can be handled. ■Coupling with dynamic magnetic field analysis, electric field analysis, and electromagnetic wave analysis is possible. ■For other functions and details, please download the catalog or contact us.
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Applications/Examples of results
■□■Applicable Fields■□■ ■Fields where heat generation due to electromagnetic fields is a problem. Induction heating, electric cooking appliances, etc.
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Company information
At Photon, we are developing "electromagnetic field analysis software" that models and simulates products and components utilizing electromagnetic phenomena on computers. In traditional design and development environments, the process has primarily revolved around trial and error through prototypes based on the experience of engineers and experiments with those prototypes. However, conducting experiments with actual prototypes and analyzing the results requires significant time and cost. Moving forward, transitioning from an experimental and prototype-based approach to an analysis-based design is a critical issue for improving productivity, and establishing simulation technology as the core of analysis-based design techniques is a challenge. In this context, Photon is developing and providing "analysis software" focusing on electromagnetic fields, as well as heat, vibration, and sound fields. By utilizing Photon’s software, efficient development and design of various industrial products can be achieved. In this way, Photon aims to reduce the number of prototypes and development costs, shorten development periods in the manufacturing sites of our users, and ultimately support the enhancement of our users' competitiveness.