Free bearing calculation software


















Download Romax Spin Flyer. Watch our latest webinars. Bearing Analysis Software Advanced simulation of rolling element bearings as part of a full electro-mechanical system with Romax Spin. The SKF bearing catalogue has been updated and now includes super precision and hybrid bearings.

Hybrid bearings , with steel rings and ceramic rolling elements, are supported including the capability for calculations of load capacity, life, stress, and efficiency.

Fully ceramic bearings are also supported but the standards do not support calculations of load capacities and life. Bearing Design Advanced, integrated analysis of rolling element bearings to give unrivalled insight into bearing performance.

Fast parametric modelling of the system and the bearing internal geometry for easy design space exploration Flexible model fidelity from single bearing to complex systems with flexible bearing rings and other structures Enhanced bearing contact analysis featuring a coupled strip model accurately capturing roller edge stresses, end effects, material yield, rib contact, and truncation Time domain bearing skidding analysis capability.

Application Optimisation Easily and quickly build a parametric model of any electro-mechanical system and perform bearing selection and application optimisation with confidence. Tutorial Planetary Gear Train : A tutorial for building a 2-stage planetary gearbox. Tutorial Shift Gear Transmissions : A tutorial for simulating the gear shifting process in a gearbox.

Tutorial Bearing sets on shafts : A tutorial for implementing angular contact bearing sets by means of two alternatives. Find here the solution files for the tutorials. Find here some template files for calculation examples, a short description of them, and a full report example Click here for Chinese , Korean or French. Standard — DIN Calculation basis for shafts. Quickly model your concrete members with the simple and efficient graphical user interface. Confidently optimize your design and comply with design code provisions.

Impress clients and plan-checkers with eye-catching condensed or detailed reports. Extensive documentation, solved examples , and blog posts to guide you throughout the software. Create, organize, manage, and store your electronic calculations safely.

Input The required input data is organized on tabbed pages. Output The output results are organized on tabbed pages. Beam Design Module Features:. Input The required input data is organized on tabbed pages at the left half of the screen. Bearing Wall Design Module Features:. Customizable design criteria, options, and special conditions. Multiple loading for dead, live, roof live, snow, wind and seismic. Model either rectangular, T-beam, spandrel, inverted-T, or L-beam cross sections. Model either rectangular or round column cross sections.

You may copy loads and rebars to other spans in a continuous beam. Specify either Hognestad or Whitney concrete stress-strain. Specify either elasto-plastic or strain-hardening steel stress-strain.

Model beams with up to 5 spans and 2 cantilevers. End supports either fixed or pinned. Multiple visual controls to model the reinforcing steel sizes, lengths, and spacing.. Model wall opening graphically on a canvas representing the wall elevation. Draw, resize, move, or delete wall openings, lintels, sills, and jambs graphically.

Custom load combinations. Calculation results: Sort results per span number and load combination for granular design check. Complete reinforced concrete design. Excavation effect is considered by 2 methods: a. By the use of soil stress history. Adding a specified percent of footing overburden pressure to the bearing capacity with settlement criteria. Settlement calculations are performed by 2 methods, Steinbrenner and Das 2 footing types, flexible and rigid are available.

Consolidation settlement Excavation effect may or may not be considered. Stress increase due to footing load is calculated by 3 methods, Boussinesq, Westergaard and Approximate 2V:1H. Mentioned calculations are performed in 2 modes: a. Ability to divide each layer to a maximum of 20 sublayers, in order to increase solution precision. Click here to download demo version.



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