Multiphysics coupled analysis as you wish!
"MpCCI (Mesh-based parallel Code Coupling Interface)" is a coupling analysis interface developed by the German company scapos AG. This product enables the coupling of different CAE analysis software, such as fluid analysis software and structural analysis software, allowing for data exchange and facilitating weakly coupled analyses. It can simulate multiphysics phenomena such as fluid-structure coupling and fluid-electromagnetic field coupling. 【Features】 ■ Adaptable to various coupling analyses – multiphysics ■ Interface with various CAE software ■ Excellent data mapping capabilities ■ Strong support for mesh movement problems ■ User-friendly GUI ■ High extensibility that can be customized according to analysis content *For more details, please refer to the PDF materials or feel free to contact us.
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basic information
【Details】 ■ Adaptable to various coupled analyses, both bidirectional and unidirectional ■ Interfaces with various software - Equipped with an interface called Code Adapter compatible with various CAE software, including STAR-CD - Allows for the execution of coupled analyses using the software that customers are already using - Enables coupling between software on different platforms in a distributed environment ■ Data mapping function - High-speed and high-precision data mapping (interpolation) function allows for coupling of various physical quantities between software with different analysis methods and mesh shapes ■ Mesh movement function – Grid morphing - The mesh smoothing function based on SBM (Spring-Based mesh Morphing) eliminates the need for mesh movement settings in STAR-CD, allowing for smooth movement of fluid meshes due to structural deformation ■ User interface - MpCCI is equipped with a GUI for settings to simplify the coupling of individual software. *For more details, please refer to the PDF document or feel free to contact us.
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Applications/Examples of results
■Fluid-Structure Interaction (Artificial Heart Valve) This is a case study analyzing an artificial heart valve using fluid-structure interaction. The flow is directed from the right side to the left side, and the contours represent pressure. The analysis examines how the valve opens due to fluid pressure. It is possible to simultaneously obtain data on the forces acting on the valve, the deformation, and the flow rate. ■Fluid-Structure Interaction (Static Mixer) This is a case of fluid-structure interaction for a static mixer used for mixing polymers and other substances. Due to the high viscosity of the fluid, the mixer experiences a high pressure of 300 atmospheres, causing deformation. The deformation of the mixer alters the flow and affects mixing characteristics. ■Fluid-Electromagnetic Field Interaction (Natural Convection Around Wires) We simulated the natural convection problem caused by Joule heating when current flows through three central copper wires. Electromagnetic field analysis is performed using structural codes to calculate the Joule heat generated by the current. This heat is provided as a temperature source in the fluid code, allowing for flow and temperature analysis that includes the surrounding fluid. The resistance of the copper wires is determined from the obtained temperature, which is fed back into the structural code for electromagnetic field analysis, repeating the coupling to achieve a steady state. ★There are many other applicable cases. Please feel free to contact us.
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While focusing on MBD and CAE technologies and their surrounding technical areas, we specialize in building virtual products and collaborative design processes through cutting-edge digital engineering. We have formed partnerships with leading software vendors of the era to provide top-level digital engineering technologies in Japan, including solutions for thermal fluid analysis, structural analysis, electromagnetic field analysis, acoustic analysis, system simulation, optimization technologies, embedded software development environments, and simulation process data management (SPDM) solutions. We offer a comprehensive engineering environment necessary to solve the diverse and complex challenges faced by our customers. Official Blog: https://www.idaj.co.jp/blog/ IDAJ YouTube Channel: https://www.youtube.com/channel/UCGCd8pB5Lwq_noIoxpgJrrw/featured X: https://twitter.com/IDAJ_CAE Facebook: https://www.facebook.com/IDAJ.CAE