The geometric shape of the rotationally symmetric component can be defined by the user using a polygon!
The "Axial Radial Roller Bearing Structural Analysis Software" is software that considers the deformation of the bearing raceway using the finite element method. The geometric shape of the rotationally symmetric components can be defined by the user using polygons, and it is possible to define an arbitrary number of cylindrical rollers. Types of rolling bearings are supported, including "Axial Radial Cylindrical Roller Bearings," "Radial Cylindrical Roller Bearings," and "Cross Roller Bearings." 【Features】 ■ Considers the deformation of the bearing raceway using the finite element method ■ The geometric shape of rotationally symmetric components can be defined by the user using polygons ■ Can define an arbitrary number of cylindrical rollers ■ Capable of performing a series of calculations with varying loads and calculating load spectra ■ Supports rolling bearing types such as Axial Radial Cylindrical Roller Bearings *For more details, please refer to the PDF document or feel free to contact us.
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【Other Features】 ■ Load distribution on rollers along the length of the roller and load sharing between rollers ■ Lifetime calculation of each bearing row and system in accordance with ISO/TS 16281, as well as modified lifetime calculation ■ Deformation and stiffness defined by two appropriately chosen arbitrary points ■ Ability to display exaggerated deformation graphics of the shaft cross-section in 3D or 2D view according to the selected angle *For more details, please refer to the PDF materials 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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We are the Japanese sales agent for MESYS AG (Switzerland), which develops technical calculation software for mechanical designers focused on bearings. Bearings are one of the important mechanical elements. We believe that visualizing the detailed internal load and stress distribution is crucial for better mechanical design. Our main areas of focus include design calculations for mechanical elements such as bearings, gears, shafts, and ball screws. ◆ I want to know the bearing stiffness. ◆ I want to find the optimal preload. ◆ I want to predict bearing life. ◆ I want to analyze vibration problems.