This work investigates the design of flank modifications for gears to achieve a low excitation level and inspection of modified gears using simulation methods. Suitable characteristic values are necessary for design as well as for inspection of gears. The values describe the excitation level in the relevant range of load and driving speed. The program DZPopt optimizes standard flank modifications according to excitation, load carrying capacity and efficiency. The inspection of gears according to a low excitation level enables high potential for the gearing production. The developed inspection process uses simulation methods. The real flank topography as input for simulation allows the calculation of the excitation level of a gear in a gearbox before assembling it. The roll scanning method enables the measurement of the topography of a complete gear within few minutes. Therefore this method is also useful for the mass production of gears.    «

This work investigates the design of flank modifications for gears to achieve a low excitation level and inspection of modified gears using simulation methods. Suitable characteristic values are necessary for design as well as for inspection of gears. The values describe the excitation level in the relevant range of load and driving speed. The program DZPopt optimizes standard flank modifications according to excitation, load carrying capacity and efficiency. The inspection of gears according...    »