Since this service has improved tooth contact on each bevel set that was examined. The most positive results have been delivered to the gear sets that originally had issues with endurance.
Nominal data file is used for input. Output is 3d CAD model. Good option to reverse engineer Gleason and Klingelnberg bevel gears. View Cart. Add to cart. Additional use of this program Verify tooth contact on spiral bevel gears that are cut using Gleason or Klingelnberg summary. Skip to main navigation Skip to main content. You are here fva-service Software Features Bevel gear calculations.
Geometry and load carrying capacity The FVA-Workbench can calculate the geometry and load carrying capacity of bevel gear pairs, including bevel gears with addendum modifications and offset bevel gears hypoid gears. Tooth flank and tooth root stress The local tooth flank and tooth root stress of spiral bevel and hypoid gears can be calculated.
The calculation consists of: Calculation of the gear geometry e. Klingelnberg, Gleason, Oerlikon, Hurth-Modul Calculation of the meshing conditions actual measurement data can be considered Calculation of meshing interference, circumferential backlash, and ductility Calculation of the load, pressure, and tooth root stress distribution using generalized influence values Calculation of load spectra.
Representation of the flank pressure and the spotting contact pattern from FVA-Workbench report. Measurement data processing Using measurement data processing for bevel gears, outliers can be removed from the actual measurement data and flank deviations between the nominal and actual geometry represented by the measurement data can be calculated.
After all these settings, you just need to press select button of your mouse and drag mouse to draw gear of desired size. After designing the gear, you can edit various properties like its appearance visualization of velocity, rotation, forces, color, etc.
Using this software, you can design helical gears with specified helix angle , V-shaped helical gears, and spur gears. It lets you design gears with teeth on internal or external circumference. The designing process is very simple. You just need to choose external or internal teeth, define gear type, number of teeth and module, pressure angle, shaft diameter hole in mm.
After that, you can specify properties for 3D printer i. X and Y bed width. Physion is another software for gear design. It is basically a physics simulation software that lets you design gears and simulate them. Here, you can find a menu that contains Gears and many other options. As you double click on Gears , it displays a gear set consisting of three gears that are connected to each other.
You can remove desired gear from this gear set and also manipulate their various properties like angle, density, friction, linear and angular damping, linear velocity, etc. Also, you can change individual gear properties, such as pitch circle radius, tooth size, tooth count divisor , etc. It lets you visualize pitch circle for designed gears.
In order to simulate gear rotation, they are mounted on motors. You can click on the center of gears to edit motor properties like enable motor, change motor speed, angle, torque, etc.
In addition to gear simulation, you can also use this software to perform physics simulation like zero friction, walker, stair walker, spider web, suspension, satellite, production line, floating box, bullet, bridge, balanced dominoes, applying forces, etc.
Involute Spur Gears is a free gear designing software for Windows. It is extremely simple to use, standalone gear design software using which you can easily design spur gear sets. As it is used to design gear sets , you can define number of teeth, profile correction, and segments per flank for individual spur gear.
After specifying these options, click on Redraw option to get visualization of gear set as per defined gear specifications.
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