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Título
An experimental methodology to improve the robotic drilling of aluminium alloys
Autor-a
Grupo de investigación
Mecanizado de alto rendimiento
Otras instituciones
Université de Mons (Bélgica)
Versión
Postprint
Derechos
© 2025 CIRP
Acceso
Acceso embargado
URI
https://hdl.handle.net/20.500.11984/6987
Versión del editor
Publicado en
CIRP Annals  Early Access
Editor
Elsevier
Palabras clave
Drilling
Robot
aluminium
ODS 9 Industria, innovación e infraestructura
Materia (Tesauro UNESCO)
Ingenieria mecánica
Clasificación UNESCO
Tecnología e ingeniería mecánicas
Resumen
In aeronautics, mastering the drilling process is crucial to meet strict quality standards. While robots provide a cost-effective solution for drilling large, complex parts, challenges arise in metall ... [+]
In aeronautics, mastering the drilling process is crucial to meet strict quality standards. While robots provide a cost-effective solution for drilling large, complex parts, challenges arise in metallic materials due to their low stiffness. This study establishes a systematic experimental method to improve hole quality during robotic drilling of aluminium alloys. Holes were drilled in plates in four positions and 64 postures using a 6 mm tool to analyse their influence on a new defect index. A static deflection compensation method was developed to improve hole quality, addressing static deflection issues narrowing the gap between robotic drilling and CNC machining. [-]
Financiador
Gobierno Vasco
Programa
Hazitek 2021
Número
ZL-2021-00273
URI de la ayuda
Sin información
Proyecto
Optimization of the machining of composite stacks with a 6 axis robot and new cutting tools (MACHSTAC)
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