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Experimental study on the mechanical effects of the vibration-assisted ball-burnishing process

Author
Travieso-Rodríguez, J.A.; Gomez, G.; Jorba, J.; Carrillo, F.; Dessein, G.; Alexis, J.; Gonzalez-Rojas, Hernan A.
Type of activity
Journal article
Journal
Materials and manufacturing processes
Date of publication
2015-12-02
Volume
30
Number
12
First page
1490
Last page
1497
DOI
https://doi.org/10.1080/10426914.2015.1019114 Open in new window
Project funding
Desarrollo y Construcción de una herramienta de bruñido con bola, asistido por una vibración de alta frecuencia
Repository
http://hdl.handle.net/2117/78230 Open in new window
Abstract
Burnishing processes are effective methods for treating pieces to increase their durability and roughness. Studies reveal that traditional burnishing can be strongly improved with the assistance of external energy sources. A vibrating module was attached to a classical burnishing tool and was tested on aluminum specimens to find the optimal vibration-assisted burnishing parameters. Vibration caused roughness improvements of the specimens and decreased the processing time by fivefold compared to ...
Citation
Travieso-Rodríguez, J.A., Gomez, G., Jorba, J., Carrillo, F., Dessein, G., Alexis, J., Gonzalez-Rojas, Hernan A. Experimental study on the mechanical effects of the vibration-assisted ball-burnishing process. "Materials and manufacturing processes", 02 Desembre 2015, vol. 30, núm. 12, p. 1490-1497.
Keywords
ALUMINUM, Aluminum, Burnishing, Hardness, IMPROVEMENT, METALS, Manufacturing, Residual, Roughness, STRESSES, SURFACE-ROUGHNESS, Stress, Vibration
Group of research
GAECE - Electronically Commutated Motor Drives Group
PROCOMAME - Conformation Processes of Metallic Materials
TECNOFAB - Manufacturing Technologies Research Group

Participants

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