Development of a simulation method for the prediction of transmission errors of injection molded spur gears

Schubert D, Hertle S, Kleffel T, Drummer D (2019)

Publication Type: Conference contribution

Publication year: 2019

Journal

Publisher: American Institute of Physics Inc.

Book Volume: 2113

Conference Proceedings Title: AIP Conference Proceedings

Event location: Vitoria-Gasteiz

ISBN: 9780735418479

DOI: 10.1063/1.5112663

Abstract

Due to the cost-efficient injection molding process and its high degree of freedom in design injection molded gears are widely used in actuating drives. One important functional requirement is the positioning precision of these systems. In gear applications, this precision is mostly dependent on the transmission error. Therefore, a lot of effort in mold design and construction is spent on ensuring acceptable transmission errors of injection molded plastic spur gears. To predict the transmission error of injection molded spur gears, an integrative simulation method is developed in this work. First, the injection molding process is simulated. The resulting gear geometry is transferred to the mechanical model of a flank-rolling test to evaluate the transmission error. The transmission error is mainly dependent on the local shrinkage and warpage caused in the solidification processes during injection molding, which in turn are influenced primary by tool design and process parameters. It is shown, that accurate simulation results concerning gear geometry, require a precise modeling of the process, tool and material. This includes accurate modelling of injection and temperature parameters, gate and cooling design, and behavior of the material. The simulation of the flank-rolling test has to take the specified reference torque and testing speed into account to ensure a realistic prediction of the resulting transmission errors. The research is done on gears with module 1 mm and 39 teeth. According to the model, the gate design has the highest influence on the transmission error. An increase in transmission error of 100% is predicted for gears with three symmetric pin-point gates compared to a central pin-point gate, and an increase of 50% for an eccentric pin-point gate. Therefore, if sufficiently modeled, a realistic prediction of transmission errors is possible.

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How to cite

APA:

Schubert, D., Hertle, S., Kleffel, T., & Drummer, D. (2019). Development of a simulation method for the prediction of transmission errors of injection molded spur gears. In Pedro Arrazola, Eneko Saenz de Argandona, Nagore Otegi, Joseba Mendiguren, Mikel Saez de Buruaga, Aitor Madariaga, Lander Galdos (Eds.), AIP Conference Proceedings. Vitoria-Gasteiz, ES: American Institute of Physics Inc..

MLA:

Schubert, Dominik, et al. "Development of a simulation method for the prediction of transmission errors of injection molded spur gears." Proceedings of the 22nd International ESAFORM Conference on Material Forming, ESAFORM 2019, Vitoria-Gasteiz Ed. Pedro Arrazola, Eneko Saenz de Argandona, Nagore Otegi, Joseba Mendiguren, Mikel Saez de Buruaga, Aitor Madariaga, Lander Galdos, American Institute of Physics Inc., 2019.

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