Simulation of a finishing operation : milling of a turbine blade and influence of damping
Communication avec acte
Auteur
COFFIGNAL, GérardBALMES, EtienneTEXIER, AnthonyLORONG, Philippe 
GUSKOV, MikhailRésumé
Milling is used to create very complex geometries and thin parts, such as turbine blades. Irreversible geometric defects may appear during finishing operations when a high surface quality is expected. Relative vibrations between the tool and the workpiece must be as small as possible, while tool/workpiece interactions can be highly non-linear. A general virtual machining approach is presented and illustrated. It takes into account the relative motion and vibrations of the tool and the workpiece. Both deformations of the tool and the workpiece are taken into account. This allows predictive simulations in the time domain. As an example the effect of damping on the behavior during machining of one of the 56 blades of a turbine disk is analysed in order to illustrate the approach potential.
Fichier(s) constituant cette publication
Cette publication figure dans le(s) laboratoire(s) suivant(s)
Documents liés
Visualiser des documents liés par titre, auteur, créateur et sujet.
-
Communication sans acte; ; ; ; ;GUSKOV, Mikhail (2013)
Présentation concernant la modélisation des phénomènes dynamiques en usinage. Cette modélisation a pour particularité de permettre la prédiction de la géométrie des surfaces usinées (défauts de forme, d'ondulation) que la ...
-
Communication avec acte; ;GUSKOV, Mikhail (2016)
The idea of generating and sensing Lamb waves through piezoelectric sensor/actuator configurations is common for Structural Health Monitoring (SHM) applications. Methods using time of flight analysis require the prediction ...
-
Communication avec acte; ; ;MECHBAL, Nazih; GUSKOV, Mikhail; RÉBILLAT, Marc (2014)
This paper examines an important challenge in ultrasonic structural health monitoring (SHM), which is the problem of the optimal placement of sensors in order to accurately detect and localize damages. The goal of this ...
-
Article dans une revue avec comité de lecture; ;MECHBAL, Nazih; GUSKOV, Mikhail; RÉBILLAT, Marc (SAGE Publications (UK and US), 2016)
This paper presents a temperature compensation method for Lamb wave structural health monitoring. The proposed approach considers a representation of the piezo-sensor signal through its Hilbert transform that allows one ...
-
A general method to accurately simulate material removal in virtual machining of flexible workpieces Rapport de recherche(2015)Multi-axis milling and other computer numerical control machining processes allow us to create very complex geometries and thin parts. In this context, virtual machining is a powerful tool, but the simultaneous vibrations ...