In this video, drive technology expert Benjamin Abert presents the latest features of FVA-Workbench 9.2 and shares his personal highlights: GUI improvements, cylindrical gears, bearings, and bevel gears.
In this tutorial, Georg Hammerl presents the FVA-Workbench features for gear design with plastic gears.
To maximize the power density of a gear unit, all of its loads must be calculated as precisely as possible. Dr. Moritz Keuthen presents the various models available in the FVA-Workbench to provide a quick overview of the functions and results.
Dr. Ferdinand Wikidal presents the local load capacity calculations in the FVA-Workbench during gear design, with examples.
The FVA-Workbench now includes access to the new SKF Calculation Service, which makes it possible to consider the exact bearing geometry in your calculations. In this tutorial, Gary Bratton demonstrates how to use this new feature.
Benjamin Abert (FVA GmbH), Andreas Süß, and Martion Sopouch (AVL List GmbH) present the gear design capabilities of the FVA-Workbench and the simple interface to AVL EXCITETM eAxle.
Dennis Tazir presents the comprehensive calculation methods in the FVA-Workbench for predicting and reducing the power losses of gearbox components such as gears and bearings.
Benjamin Abert demonstrates the new features of the FVA-Workbench 7.0, including consideration of wheel bodies in the overall system and the calculation of plastic gears with hyperelastic material behavior.
Dr. Moritz Keuthen shows how to use the FVA-Workbench to specify and calculate load spectra for cylindrical and bevel gears, rolling bearings, and shafts/notches.
Marcus Bisanz provides an overview of the new reporting features in the FVA-Workbench.
Dennis Tazir provides an overview of gear excitation caused by the meshing of cylindrical gears and shows how the FVA-Workbench can be used to reduce noise.
FEM expert Georg Hammerl presents the modeling and calculation options for planetary gears in the FVA-Workbench drive technology software, with a focus on FEM planet carriers.
Benjamin Abert presents the most important features of the FVA-Workbench, including calculation of the gear geometry, current standard calculation methods, simulation of gear deformation - and much more!
