Three-Dimensional Simulation of the Internal Arc Gear Skiving

What is it about?

Aiming at the problems that the simulation accuracy which is reduced due to the simplification of the model, a three-dimensional simulation method based on solid modeling is being proposed. By analyzing the motion relationship and positional relationship between the caries knife and the workpiece, the coordinate system of the caries machining was established. With the MATLAB software, the cutting edge model and the blade sweeping surface model of the boring cutter are sequentially established. Boolean operation is performed on the blade swept surface formed by the tooth cutter teeth with time t and the workpiece tooth geometry as well as the undeformed three-dimensional chip geometry model and the instantaneous cogging geometry model are obtained at different times. Through the compare between gear end face simulation tooth profile and the theoretical inner arc tooth profile, we verified the accuracy and rationality of the proposed method.

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Photo by Elena Mozhvilo on Unsplash

Photo by Elena Mozhvilo on Unsplash

Why is it important?

The article "Research on Three-Dimensional Simulation of the Internal Arc Gear Skiving" focuses on developing a precise simulation method for internal arc gear skiving using solid modeling techniques. By analyzing the motion and positional relationships between the tool and workpiece, the study establishes a detailed simulation model. This model helps improve accuracy in predicting the gear tooth profile, enhancing manufacturing precision. The importance of this research lies in its potential to improve gear production efficiency and quality by providing better control over the gear skiving process. For more details, you can view the article [here](https://journals.viserdata.com/index.php/mes/article/view/13227).

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