Computerized simulation of manufacturing errors in cylindrical spur gears and their compensation through flank modifications
Ver/
Compartir
Estadísticas
Ver Estadísticas de usoMetadatos
Mostrar el registro completo del ítemGrupo de investigación
Grupo de Investigación de Transmisiones Avanzadas de EngranajesÁrea de conocimiento
Ingeniería MecánicaPatrocinadores
The authors express their deep gratitude to the Spanish Ministry of Economy and Competitiveness (MINECO), for the financial support of research project ref. DPI2013-47702-C2-1-P (financed jointly by FEDER funds), and the Kate Gleason College of Engineering of the Rochester Institute of Technology for the support obtained under the summer undergraduate research program.Fecha de publicación
2018Editorial
SpringerCita bibliográfica
Fuentes-Aznar, A., Eisele, S., Gonzalez-Perez, I. (2018). Computerized Simulation of Manufacturing Errors in Cylindrical Spur Gears and Their Compensation Through Flank Modifications. In: Goldfarb, V., Trubachev, E., Barmina, N. (eds) Advanced Gear Engineering. Mechanisms and Machine Science, vol 51. Springer, Cham. https://doi.org/10.1007/978-3-319-60399-5_1Palabras clave
Gear geometrySpur gears
Manufacturing errors
Tooth contact analysis
Finite element analysis
Resumen
AGMA and ISO standards consider different types of deviation of gear geometry caused during manufacturing processes of cylindrical gears through a system of accuracy grades, in which each grade corresponds to deviations within a certain range. The gear drive behavior is affected by the level and type of deviation, causing transmission errors, shifts in the bearing contact, increase of contact and bending stresses, and vibration and noise. The main goal of this paper is the investigation of the influence of manufacturing errors on transmission errors and contact and bending stresses, and the determination of the corresponding flank modifications required for their compensation. The contact pattern and the unloaded function of transmission errors are obtained through application of tooth contact analysis (TCA) . Application of finite element analysis (FEA) allows for contact and bending stresses to be determined along one or two cycles of meshing. Surface deformations are used for determ ...
Colecciones
- Capítulos de libros [177]
El ítem tiene asociados los siguientes ficheros de licencia:
Redes sociales