Modeling the operating mechanism of the machine as is! A new proposal for dynamic mechanism stress analysis!
"PAM-MEDYSA" is a finite element method structural analysis program that uses a dynamic explicit method. By modeling the operating mechanism of machinery as it is, it is possible to verify the feasibility, strength, and durability of mechanical components. With the concept of "solving moving objects as they are," it allows for real-time analysis of the deformation and stress of components in an operating state. 【Features】 ■ Real-time calculation of contact problems between components, analyzing the deformation and stress state of each part ■ Enables the elucidation of various phenomena associated with the operation of machinery ■ Provides smooth contact to achieve seamless interaction between curved surfaces ■ Calculates considering factors such as velocity dependence and contact pressure dependence as a friction model ■ By adopting the total Lagrangian approach, it accurately reproduces rigid body motion in space *For more details, please refer to the PDF materials or feel free to contact us.
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【Other Features】 - By using a distributed memory environment, it is possible to perform high-speed analysis even with large-scale analysis models. - It is possible to ensure the uniqueness of solutions even in a distributed processing environment. - A rich set of features with a menu structure that is easy for beginners to understand. *For more details, please refer to the PDF document or feel free to contact us.
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【Applicable Fields】 ■Engine ■Transmission ■Suspension ■Powertrain ■Reduction Gear ■Bearings and various other mechanical components *For more details, please refer to the PDF document or feel free to contact us.
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ESI Group is a leading company in "virtual prototyping," providing innovative solutions and services that emphasize "materials physics." We have developed unique solutions that enable the replacement of physical prototypes and experiments with virtual design, manufacturing, assembly, testing, and evaluation. Leveraging today's cutting-edge technology, ESI's virtual prototyping addresses the challenge of performance evaluation throughout the product lifecycle, from the start of use to the end of life, proposing a broader concept: Product Performance Lifecycle (TM). This is achieved by creating a Hybrid Twin (TM) that utilizes simulation, physics, and data analysis, allowing for smarter product development, maintaining a connection with the actual product, and enabling performance predictions and maintenance timing throughout the product's usage period.