Display the set stress state as three types of 3D shapes! The phase of each axis can be specified separately in degrees.
In the training of design engineers on the subject of mechanics of materials, understanding principal stresses is one of the essential learning objectives. "Meshman_Principal Stress Ver.3.5" is a stress tensor visualization software that allows users to numerically verify stress components, Mises stress, and stress invariants. It enables the rotation of the observation coordinate system and stress field in any direction, allowing users to observe how stress components change. The relationship between stress and each component of the stress tensor, as well as the values of invariants related to stress, is displayed through numerical data and 3D graphics, showing how these change when the coordinate axes are altered, thus supporting further understanding for learners of mechanics of materials. 【Features】 ■ Input values for principal stresses or stress components to set the state of stress ■ Display the set state of stress as three types of 3D shapes ■ The 3D shapes represent the state of stress with color contours and mesh patterns ■ Display the state of stress on the surface of a cube representing the observation coordinate system with arrows ■ Show a cutting plane that can be rotated in any direction and display the state of stress on that plane *For more details, please refer to the PDF document or feel free to contact us.
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【Additional Features in Ver. 3.5】 ■ Simulate the deformation of a cube under a three-axis stress state in a 3D shape ■ Specify the phase of each axis separately in degrees ■ The set amplitude value is updated based on the principal stresses calculated from the input stress components *For more details, please refer to the PDF document or feel free to contact us.
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For more details, please refer to the PDF document or feel free to contact us.
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Insight Inc. was established in 1999 from the Intelligent Modeling Laboratory (IML), created at the University of Tokyo for the purpose of nurturing venture companies. We have participated in various projects in collaboration with the university, such as the "Development Project for Large-Scale Computational Mechanics Systems for Design (commonly known as ADVENTURE)" (a project under the Japan Society for the Promotion of Science's Future Development Academic Research Promotion Program in the field of "Computational Science"). We aim to convert the cutting-edge technologies obtained from these projects into software that is easy for the general public to use, and to contribute to society by widely providing high-quality knowledge in areas such as programming and analysis techniques. Considering the convenience of technology transfer from the university, our office is located in front of the Akamon gate at the University of Tokyo.