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Calculation
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MITCalc - Shafts Calculation 1.16
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calculation of the relevant coefficients of stress concentration. - Simple definition of spatial shaft load. - Calculation of reactions, courses of forces, moments, stress, deflection and bending angle of the shaft and others. - Calculation of critical speed and safety coefficients. - Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD) and 3D CAD in full calculation package (Autodesk Inventor, SolidWorks, SolidEdge, Pro
Calculation of complete geometric parameters (including corrected toothing). - Optimization of toothing by use of proper correction (balancing specific slips, miminizing specific slips, strength...). - Calculation of strength parameters, safety check. - Design of gearing for exact axis distance. - Supplementary calculations (calculation of parameters of the existing gear, temperature rise, design of shafts, check dimensions). - Support of 2D and
helical, internal gear, strength check, gearing, spur gearing, tooth, design, iso 6336, iso 1328, gear, toothing
Calculation of complete geometric parameters (including corrected toothing). - Optimization of toothing by use of proper correction (balancing specific slips, miminizing specific slips, strength...). - Calculation of strength parameters, safety check. - Design of gearing for exact axis distance. - Supplementary calculations (calculation of parameters of the existing gear, temperature rise, design of shafts, check dimensions). - Support of 2D and
helical, strength check, gearing, spur gearing, tooth, design, iso 6336, iso 1328, gear, toothing, din 3990
Calculation of straight, helical and curved toothing. - Automatic design of a transmission with the minimum number of input requirements. - Design for entered coefficients of safety (static, dynamic). - Calculation of complete geometric parameters (including corrected toothing). - Calculation of strength parameters, safety check. - Supplementary calculations (calculation of parameters of the existing gear, temperature rise, design of shafts) - Optimization
helical, din 3991, bevel gear, strength check, gearing, tooth, design, iso 6336, din 3971, gear, toothing
Calculation of gearing dimensions. - Automatic transmission design with minimum input requirements. - Design for safety coefficients entered. - Calculation of a table of proper solutions. - Calculation of complete geometrical parameters. - Calculation of strength parameters, safety check. - Gearing design for precise centre-line distance. - Auxiliary calculations (heating, shaft design). - Support of 2D and 3D CAD systems. - Support of 2D CAD (AutoCAD
helical, din 3996, din 3975 1, strength check, gearing, tooth, design, agma 6022 c93, gear, toothing, worm gearing
Calculation of all necessary strength and geometrical parameters. - Calculation of power parameters and axis loads. - Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD) and 3D CAD in full calculation package (Autodesk Inventor, SolidWorks, SolidEdge, Pro/E). The application works with CAD systems and includes the respective models of pulleys and belts. The calculations use procedures, algorithms and data from ANSI, RMA
ansi rma ip 24, toothed belt, strength check, din 7721, din iso 5296, design, iso 5295, 1983, timing belt, synchronous belt, belt
Calculation of geometric, strength, safety and operational parameters. - Calculation of power parameters and axis loads. - Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD) and 3D CAD in full calculation package (Autodesk Inventor, SolidWorks, SolidEdge, Pro/E). The application includes corresponding databases of roller chains. The calculations use data, procedures, algorithms and data from ANSI/ASME, ACA (American Chain
chain transmission, ansi asme b29 3, strength check, din 8187, design, chain, ansi asme b29 1m, din 8164, din 8181, roller chain